This document highlight the growth of IoT market in manufacturing and list most common industry uses cases as well as the adoption and impact path of IIoT
Travelers: Fabtech - Five Process Trends in Metals Manufacturing travelers
Erika Melander and Brittani Austin explored five trends in metals manufacturing that were highlighted at FABTECH:
1) Hybrid additive manufacturing combines 3D printing and subtractive technologies for applications like repairs and rebuilds.
2) Cloud computing allows connected machines to share real-time data via the industrial internet of things, improving productivity but requiring cybersecurity management.
3) Virtual reality simulation reduces costs from material waste, energy use, and injuries by enabling virtual screening and training.
Digital technology as driving force for industry 4.0 and digital economySuta Wijaya
The document discusses how digital technology is driving Industry 4.0 and the digital economy. It describes the four industrial revolutions from manual processes to increasing automation using technologies like steam power, electricity, electronics/IT, and now digital/physical systems controlled by AI. The digital economy is defined as network-enabled commercial transactions using ICT like e-commerce. Hyperconnectivity via the internet, mobile, IoT, cloud, and AI underpin the digital economy. The document outlines how digital technology forces are transforming industry and discusses IBM's research into technologies over the next 5 years like blockchain/crypto anchors for authenticity, lattice cryptography for post-quantum security, AI-powered microscopes for environmental monitoring, reducing AI bias, and mainstream
Industry 4.0 : Evolution of the RevolutionApurva Sharma
A clear understanding of the evolution of the revolution that is Industry 4.0.
How industrial revolution started with the 1st mechanical loom to the evolution to today's time of cyber physical systems .
The evolution of the completely Digital Factory.
Go wipes 17 teknoweb converting - industry 4.0 Guido Conio
Guido Conio is the Chief Commercial Officer at Teknoweb Converting, a leader in advanced wet wipe manufacturing solutions. Teknoweb is introducing their Connected Wipe system to help wipe manufacturers transition to Industry 4.0. The Connected Wipe allows machines to be connected to the cloud, sending sensor data for analytics and optimization. This provides real-time data monitoring, overall equipment effectiveness tracking, and continuous process improvements through data-driven insights. The Connected Wipe is offered as a service with Teknoweb machines and provides an MES platform to facilitate integration between the plant floor and ERP systems.
Industry 4.0 is the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things and cloud computing. Industry 4.0 creates what has been called a “smart factory
A next-gen maintenance solution should bring a digital transformation to the plant and should feature a user-friendly interface so each team member is eager to work with it. The industry 4.0 CMMS can be easily integrated in the context of the IoT, cloud and cognitive computing to become an indispensable part of the smart factory.
Industry 4.0: Merging Internet and FactoriesFabernovel
Industrial IoT and connected objects for factories are part of our research at FABERNOVEL OBJET, our activity dedicated to IoT.
The future of industry is at the crossroads of internet and factories. Some call it INDUSTRY 4.0 or FACTORY 4.0 in reference to the upcoming fourth industrial revolution. Governments and private companies in Germany, UK and the USA have acknowledged the importance of industrial IoT and its central role in future industrial transformation.
The adoption of Industrial Internet has both near-term and long-term impacts and will be characterized by the emergence of new models such as the “Outcome Economy” and the “Autonomous, Pull Economy”.
We believe that INDUSTRY 4.0 is a growth opportunity for industrial companies, and have decrypted this very phenomenon in the following presentation.
Travelers: Fabtech - Five Process Trends in Metals Manufacturing travelers
Erika Melander and Brittani Austin explored five trends in metals manufacturing that were highlighted at FABTECH:
1) Hybrid additive manufacturing combines 3D printing and subtractive technologies for applications like repairs and rebuilds.
2) Cloud computing allows connected machines to share real-time data via the industrial internet of things, improving productivity but requiring cybersecurity management.
3) Virtual reality simulation reduces costs from material waste, energy use, and injuries by enabling virtual screening and training.
Digital technology as driving force for industry 4.0 and digital economySuta Wijaya
The document discusses how digital technology is driving Industry 4.0 and the digital economy. It describes the four industrial revolutions from manual processes to increasing automation using technologies like steam power, electricity, electronics/IT, and now digital/physical systems controlled by AI. The digital economy is defined as network-enabled commercial transactions using ICT like e-commerce. Hyperconnectivity via the internet, mobile, IoT, cloud, and AI underpin the digital economy. The document outlines how digital technology forces are transforming industry and discusses IBM's research into technologies over the next 5 years like blockchain/crypto anchors for authenticity, lattice cryptography for post-quantum security, AI-powered microscopes for environmental monitoring, reducing AI bias, and mainstream
Industry 4.0 : Evolution of the RevolutionApurva Sharma
A clear understanding of the evolution of the revolution that is Industry 4.0.
How industrial revolution started with the 1st mechanical loom to the evolution to today's time of cyber physical systems .
The evolution of the completely Digital Factory.
Go wipes 17 teknoweb converting - industry 4.0 Guido Conio
Guido Conio is the Chief Commercial Officer at Teknoweb Converting, a leader in advanced wet wipe manufacturing solutions. Teknoweb is introducing their Connected Wipe system to help wipe manufacturers transition to Industry 4.0. The Connected Wipe allows machines to be connected to the cloud, sending sensor data for analytics and optimization. This provides real-time data monitoring, overall equipment effectiveness tracking, and continuous process improvements through data-driven insights. The Connected Wipe is offered as a service with Teknoweb machines and provides an MES platform to facilitate integration between the plant floor and ERP systems.
Industry 4.0 is the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things and cloud computing. Industry 4.0 creates what has been called a “smart factory
A next-gen maintenance solution should bring a digital transformation to the plant and should feature a user-friendly interface so each team member is eager to work with it. The industry 4.0 CMMS can be easily integrated in the context of the IoT, cloud and cognitive computing to become an indispensable part of the smart factory.
Industry 4.0: Merging Internet and FactoriesFabernovel
Industrial IoT and connected objects for factories are part of our research at FABERNOVEL OBJET, our activity dedicated to IoT.
The future of industry is at the crossroads of internet and factories. Some call it INDUSTRY 4.0 or FACTORY 4.0 in reference to the upcoming fourth industrial revolution. Governments and private companies in Germany, UK and the USA have acknowledged the importance of industrial IoT and its central role in future industrial transformation.
The adoption of Industrial Internet has both near-term and long-term impacts and will be characterized by the emergence of new models such as the “Outcome Economy” and the “Autonomous, Pull Economy”.
We believe that INDUSTRY 4.0 is a growth opportunity for industrial companies, and have decrypted this very phenomenon in the following presentation.
This whitepaper examines how Industry 4.0 can disrupt the oil and gas upstream industry. It outlines key Industry 4.0 solutions that can improve efficiency across the upstream value chain from exploration to production. These include digital modeling, predictive analytics, autonomous operations, and predictive maintenance. The paper also discusses how the Industry 4.0 Maturity Index can help companies develop a strategic roadmap to implement Industry 4.0 solutions and maximize benefits. Implementing Industry 4.0 requires a holistic, enterprise-wide approach aligned with business goals to drive true digital transformation.
2015 11-03 - ibm overview for electronics manufacturing services thorsten sch...Thorsten Schroeer
Thorsten Schroeer discusses trends in the electronics industry including the shift from products to IoT sensor-driven services. He notes that the Internet of Things will create new markets for connected physical devices as the Internet did for the digital world. Schroeer highlights opportunities for analytics to improve manufacturing operations through applications like predictive maintenance, quality control, and inventory optimization. He demonstrates IBM's cloud-based Bluemix platform for developing IoT and analytics solutions and concludes by emphasizing the disruptive potential of technologies like cognitive computing and 3D printing.
The Fourth Industrial Revolution is here. Smart Factories are here. Smart Production systems are here.
Does it mean that jobs will reduce or will there be an increase in jobs.
Are we going towards a Knowledge economy.
Will technology become complex or will it become easy for a layman to understand.
Will working in a tech intensive factory become easy or will it become complex.
Industrial Automation (IMPL Industry 4.0)prasanna112
Typically in any manufacturing environment, challenges on the shop floor regarding capacity, utilization take precedence over any other. As an industry 4.0 solution provider, MIPL Shop Floor Automation, effectively helps address these challenges pertaining to the Plant Capacity, Utilization, Machine Shop Efficiency and Effectiveness and so on.As a business driver, it enables continuous monitoring of production resources and processes, directly improving cost-effectiveness and providing the stakeholders a 360° view of machinery performance,thereby equipping them to make data-driven decisions and actions.
The use of hybrid clouds is emerging as a new trend in cloud computing. Hybrid clouds involve using a single cloud provider but obtaining services from both public and private clouds. This limits cloud sprawl and helps businesses better track spending across multiple cloud services. Experts predict hybrid clouds will become more popular as a way for companies to utilize different cloud environments through one provider. Big data analytics, improved security services, and increased reliability are also noted as developing trends in cloud computing.
IntelliAura enables organizations to digitally connect the right people to the right technologies at the right time. From our own operations to what we offer clients, we are focused on one thing: Business Value. It’s more than how much you paid for something or what a new solution saved.
Everything we do is based on an effective simple idea by bridging the gap between existing and emerging technologies—so you can innovate faster, with less risk, in the race to digital transformation.
Our comprehensive solutions are designed to provide cost-effective and timely advice and support to assist customers with business compliance, improvement and growth, to strengthen your productivity, profitability and competitiveness.
We believe in being open, always. We build trust through transparency, support genuine partnerships, and welcome new ideas. From strengthening relationships with suppliers to integrating with leading technologies, IntelliAura opens the door to a world of opportunities.
Industry 4.0 is a name given to the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things, cloud computing and cognitive computing. Industry 4.0 is commonly referred to as the fourth industrial revolution.
Industry 4.0 provides an integrated perspective in a digitized setting wherein cyber and physical world views are integrated. It also provides an opportunity to make manufacturing smart, sustainable .and long term basis.
Keynote "Practical case-studies of Industry 4.0 implementation in the global wire and cable manufacturer community" of Clobbi CEO Dmitry Shapovalov that was held 13 Jun 2019 @CRU 2019 Brussels
This document discusses the concepts of Industry 4.0 and the connected plant. It describes how devices, processes and businesses are becoming increasingly connected through technologies like the Internet of Things. It outlines key enablers of Industry 4.0 like mobile computing, social media, big data analytics. The document then discusses SAP's solutions for connecting plants through their Manufacturing Execution Suite, which provides integration, intelligence and innovation capabilities for monitoring equipment performance, collecting plant data, and ensuring end-to-end visibility across the extended supply chain.
Transition Technologies Group provides software and services for various industries including energy, gas, heavy industry, and medicine. They offer solutions like ETRM systems, underground gas storage management, process automation, and tools for analyzing medical data. Transition Technologies focuses on trends like human-centered manufacturing, collecting full product lifecycle data using IoT and AI. They demonstrate an AR application for manufacturing space design that allows capturing measurements, visualizing installations, and exploring layout options in order to optimize factory space planning.
In this presentation, Abilash introduces automation and associated trends. Abilash has seen manufacturing plants employng 1000s of IoT devices for automation and his interest area lies in the same domain.
The document discusses the Internet of Things (IoT). It provides definitions and history, noting that IoT involves connecting physical devices to the internet. The document outlines key features of IoT like unique identification, artificial intelligence, and location services. Graphs show the rapid growth in IoT connections and connected devices outpacing world population. Applications of IoT are discussed in various industries and aspects of life. Advantages include improved communication, information access, automation, monitoring, time savings, and cost savings. Challenges involve ensuring compatibility, managing complexity, and addressing security, privacy and safety issues.
This document discusses the rise of Industry 4.0, also known as the fourth industrial revolution. It describes the three previous industrial revolutions from the 18th century to today and how they advanced manufacturing. Industry 4.0 is characterized by connectivity between smart machines and systems using sensors and data exchange. This will allow autonomous decision making and optimization of production processes. The document highlights opportunities for Industry 4.0 in various sectors like agriculture, mining, transportation and more. It emphasizes that the rise of the Internet of Things will connect billions of devices generating huge amounts of data. Finally, it argues that advanced design and EDA tools will be crucial to enable the complex systems needed for Industry 4.0.
The document discusses the digitization of Qatar and how the country is embracing the fourth industrial revolution. It describes how previous industrial revolutions increasingly incorporated new technologies like steam power, electricity, and computers. The fourth revolution involves using cloud platforms and the internet of things to integrate all business activities and share data seamlessly. This allows for improved efficiency, transparency, and reduced costs. The document outlines several technologies Qatar is adopting as part of its digitization efforts, such as operation digitization, product lifecycle management, 3D modeling, additive manufacturing (3D printing), and integrated energy management systems. It emphasizes that cyber security is crucial as more systems become connected, and notes Qatar's focus on legislation and partnerships to safeguard businesses and citizens
* Cloud Computing
* Evolution of Cloud computing across data driven industries
* Use of cloud computing at the point of production with Precision Agriculture
* Recognition of the significance - cloud computing across the value chain
* Key emerging trends in synthetic biology
Swiss Re is creating a digital platform on Azure to enable ongoing innovation. Alan Wales notes this platform will be the foundation for new business models and projects within the company. By collecting data from multiple sources, Swiss Re can design new services for customers and business partners to support its digital transformation.
Cloud computing delivers services like storage, databases, and software via subscription. While healthcare has been slow to adopt cloud computing, new opportunities are emerging from cloud-connected medical devices that can collect and share patient data wirelessly with doctors. Wearable devices can upload health indicators to the cloud for physicians to access, and device manufacturers can provide big data services to clients even without local computing hardware.
this is the basic slide for the introduction of Industry 4.0. how this works and what are the foundations required for the working of the indusry as it is taking globally a huge transformation.
The Most Definitive guide to Industrial IoT ImplementationAditya Basu
Industrial IoT has the potential of USD 15.3 trillion to the global economy by 2030 subjected to an improvement of 1-1.5%. Industrial Internet is a revolutionary technology that enhances the Industrial environment with the IoT capabilities. IIoT helps to solve the bottlenecks in the business environment, provides operational efficiency, increases productivity and reduces the complexity of the process.
The main benefit of Industrial IoT is the connected enterprise that enhances the visibility across various departments and benefits with a smooth workflow. According to General Electric CEO, Jeff Immelt, IIoT has twice the market potential than that of the consumer IoT.
In this Guide you will know everything about
a) The Connected Factory! Role of IIoT
b) Evolution of IIoT to Industry 4.0
c) Industrial IoT Ecosystem
d) Value Chain Players today and what you can learn from them
e) How IIoT is Different from IoT
f) Technology Drivers and Adoption
g) Market Indicators and why you should jump the Bandwagon NOW!
h) Market Revenues and Areas of Focus
i) The Digitization Wave
j) Real World Industrial IoT Case Studies Including Solutions & Outcomes
This whitepaper examines how Industry 4.0 can disrupt the oil and gas upstream industry. It outlines key Industry 4.0 solutions that can improve efficiency across the upstream value chain from exploration to production. These include digital modeling, predictive analytics, autonomous operations, and predictive maintenance. The paper also discusses how the Industry 4.0 Maturity Index can help companies develop a strategic roadmap to implement Industry 4.0 solutions and maximize benefits. Implementing Industry 4.0 requires a holistic, enterprise-wide approach aligned with business goals to drive true digital transformation.
2015 11-03 - ibm overview for electronics manufacturing services thorsten sch...Thorsten Schroeer
Thorsten Schroeer discusses trends in the electronics industry including the shift from products to IoT sensor-driven services. He notes that the Internet of Things will create new markets for connected physical devices as the Internet did for the digital world. Schroeer highlights opportunities for analytics to improve manufacturing operations through applications like predictive maintenance, quality control, and inventory optimization. He demonstrates IBM's cloud-based Bluemix platform for developing IoT and analytics solutions and concludes by emphasizing the disruptive potential of technologies like cognitive computing and 3D printing.
The Fourth Industrial Revolution is here. Smart Factories are here. Smart Production systems are here.
Does it mean that jobs will reduce or will there be an increase in jobs.
Are we going towards a Knowledge economy.
Will technology become complex or will it become easy for a layman to understand.
Will working in a tech intensive factory become easy or will it become complex.
Industrial Automation (IMPL Industry 4.0)prasanna112
Typically in any manufacturing environment, challenges on the shop floor regarding capacity, utilization take precedence over any other. As an industry 4.0 solution provider, MIPL Shop Floor Automation, effectively helps address these challenges pertaining to the Plant Capacity, Utilization, Machine Shop Efficiency and Effectiveness and so on.As a business driver, it enables continuous monitoring of production resources and processes, directly improving cost-effectiveness and providing the stakeholders a 360° view of machinery performance,thereby equipping them to make data-driven decisions and actions.
The use of hybrid clouds is emerging as a new trend in cloud computing. Hybrid clouds involve using a single cloud provider but obtaining services from both public and private clouds. This limits cloud sprawl and helps businesses better track spending across multiple cloud services. Experts predict hybrid clouds will become more popular as a way for companies to utilize different cloud environments through one provider. Big data analytics, improved security services, and increased reliability are also noted as developing trends in cloud computing.
IntelliAura enables organizations to digitally connect the right people to the right technologies at the right time. From our own operations to what we offer clients, we are focused on one thing: Business Value. It’s more than how much you paid for something or what a new solution saved.
Everything we do is based on an effective simple idea by bridging the gap between existing and emerging technologies—so you can innovate faster, with less risk, in the race to digital transformation.
Our comprehensive solutions are designed to provide cost-effective and timely advice and support to assist customers with business compliance, improvement and growth, to strengthen your productivity, profitability and competitiveness.
We believe in being open, always. We build trust through transparency, support genuine partnerships, and welcome new ideas. From strengthening relationships with suppliers to integrating with leading technologies, IntelliAura opens the door to a world of opportunities.
Industry 4.0 is a name given to the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things, cloud computing and cognitive computing. Industry 4.0 is commonly referred to as the fourth industrial revolution.
Industry 4.0 provides an integrated perspective in a digitized setting wherein cyber and physical world views are integrated. It also provides an opportunity to make manufacturing smart, sustainable .and long term basis.
Keynote "Practical case-studies of Industry 4.0 implementation in the global wire and cable manufacturer community" of Clobbi CEO Dmitry Shapovalov that was held 13 Jun 2019 @CRU 2019 Brussels
This document discusses the concepts of Industry 4.0 and the connected plant. It describes how devices, processes and businesses are becoming increasingly connected through technologies like the Internet of Things. It outlines key enablers of Industry 4.0 like mobile computing, social media, big data analytics. The document then discusses SAP's solutions for connecting plants through their Manufacturing Execution Suite, which provides integration, intelligence and innovation capabilities for monitoring equipment performance, collecting plant data, and ensuring end-to-end visibility across the extended supply chain.
Transition Technologies Group provides software and services for various industries including energy, gas, heavy industry, and medicine. They offer solutions like ETRM systems, underground gas storage management, process automation, and tools for analyzing medical data. Transition Technologies focuses on trends like human-centered manufacturing, collecting full product lifecycle data using IoT and AI. They demonstrate an AR application for manufacturing space design that allows capturing measurements, visualizing installations, and exploring layout options in order to optimize factory space planning.
In this presentation, Abilash introduces automation and associated trends. Abilash has seen manufacturing plants employng 1000s of IoT devices for automation and his interest area lies in the same domain.
The document discusses the Internet of Things (IoT). It provides definitions and history, noting that IoT involves connecting physical devices to the internet. The document outlines key features of IoT like unique identification, artificial intelligence, and location services. Graphs show the rapid growth in IoT connections and connected devices outpacing world population. Applications of IoT are discussed in various industries and aspects of life. Advantages include improved communication, information access, automation, monitoring, time savings, and cost savings. Challenges involve ensuring compatibility, managing complexity, and addressing security, privacy and safety issues.
This document discusses the rise of Industry 4.0, also known as the fourth industrial revolution. It describes the three previous industrial revolutions from the 18th century to today and how they advanced manufacturing. Industry 4.0 is characterized by connectivity between smart machines and systems using sensors and data exchange. This will allow autonomous decision making and optimization of production processes. The document highlights opportunities for Industry 4.0 in various sectors like agriculture, mining, transportation and more. It emphasizes that the rise of the Internet of Things will connect billions of devices generating huge amounts of data. Finally, it argues that advanced design and EDA tools will be crucial to enable the complex systems needed for Industry 4.0.
The document discusses the digitization of Qatar and how the country is embracing the fourth industrial revolution. It describes how previous industrial revolutions increasingly incorporated new technologies like steam power, electricity, and computers. The fourth revolution involves using cloud platforms and the internet of things to integrate all business activities and share data seamlessly. This allows for improved efficiency, transparency, and reduced costs. The document outlines several technologies Qatar is adopting as part of its digitization efforts, such as operation digitization, product lifecycle management, 3D modeling, additive manufacturing (3D printing), and integrated energy management systems. It emphasizes that cyber security is crucial as more systems become connected, and notes Qatar's focus on legislation and partnerships to safeguard businesses and citizens
* Cloud Computing
* Evolution of Cloud computing across data driven industries
* Use of cloud computing at the point of production with Precision Agriculture
* Recognition of the significance - cloud computing across the value chain
* Key emerging trends in synthetic biology
Swiss Re is creating a digital platform on Azure to enable ongoing innovation. Alan Wales notes this platform will be the foundation for new business models and projects within the company. By collecting data from multiple sources, Swiss Re can design new services for customers and business partners to support its digital transformation.
Cloud computing delivers services like storage, databases, and software via subscription. While healthcare has been slow to adopt cloud computing, new opportunities are emerging from cloud-connected medical devices that can collect and share patient data wirelessly with doctors. Wearable devices can upload health indicators to the cloud for physicians to access, and device manufacturers can provide big data services to clients even without local computing hardware.
this is the basic slide for the introduction of Industry 4.0. how this works and what are the foundations required for the working of the indusry as it is taking globally a huge transformation.
The Most Definitive guide to Industrial IoT ImplementationAditya Basu
Industrial IoT has the potential of USD 15.3 trillion to the global economy by 2030 subjected to an improvement of 1-1.5%. Industrial Internet is a revolutionary technology that enhances the Industrial environment with the IoT capabilities. IIoT helps to solve the bottlenecks in the business environment, provides operational efficiency, increases productivity and reduces the complexity of the process.
The main benefit of Industrial IoT is the connected enterprise that enhances the visibility across various departments and benefits with a smooth workflow. According to General Electric CEO, Jeff Immelt, IIoT has twice the market potential than that of the consumer IoT.
In this Guide you will know everything about
a) The Connected Factory! Role of IIoT
b) Evolution of IIoT to Industry 4.0
c) Industrial IoT Ecosystem
d) Value Chain Players today and what you can learn from them
e) How IIoT is Different from IoT
f) Technology Drivers and Adoption
g) Market Indicators and why you should jump the Bandwagon NOW!
h) Market Revenues and Areas of Focus
i) The Digitization Wave
j) Real World Industrial IoT Case Studies Including Solutions & Outcomes
This document discusses Industry 4.0, which refers to the current trend of increased automation and data exchange in manufacturing technologies using cyber-physical systems, the internet of things, cloud computing, and cognitive computing. It is considered the fourth industrial revolution. The document provides an overview of the four industrial revolutions from the introduction of steam power in Industry 1.0 to the increased automation using sensors and machine learning in Industry 4.0 today. It also discusses key aspects of Industry 4.0 like cyber-physical systems, the internet of things, benefits and examples of IIoT (industrial internet of things) systems.
Designing for Manufacturing's 'Internet of Things'Cognizant
The deeper meshing of virtual and physical machines offers the potential to truly transform the manufacturing value chain, from suppliers through customers, and at every touchpoint along the way.
IoT Development In Manufacturing A Guide to Industrial Digital Transformation...Laura Miller
IoT helps manufacturers to streamline operations & boost productivity with ease. Read the blog to know how the IoT development brings digital transformation.
IOT Development in Manufacturing A Guide to Industrial Digital Transformation...Laura Miller
IoT helps manufacturers to streamline operations and boost productivity with ease. Read the blog to know how the IoT development brings digital transformation.
1. The document discusses the evolution of industrial revolutions and the emergence of Industry 4.0 and the Internet of Things (IoT).
2. Key components of IoT include sensors, connectivity, device management, platforms, applications, and mobile access.
3. IoT is transforming business by enabling new data-driven and customer-oriented business models through technologies like cloud computing and big data analytics.
Webinar - Transforming Manufacturing with IoTHARMAN Services
The Manufacturing industry is realizing the tremendous benefits in the “Internet of Things” (IoT), an inevitable evolution to traditional M2M solutions. Innovations across embedded devices, advanced analytics, and enriched user experiences all powered by cloud, has enabled new opportunities for both perpetual revenue and perpetual customer value. In this session we will break down benefits of IoT for Manufacturing with real-world examples.
IRJET- High Responsive Smart Parking System using IoTIRJET Journal
This document presents a proposed smart parking system using IoT. The system uses RFID sensors and a PIC microcontroller to detect vehicle occupancy of parking spaces in real-time. This information is sent to a cloud database. A mobile app allows drivers to check parking availability and book spaces. The system aims to address issues like inefficient parking, traffic congestion, and reduced fuel consumption by helping drivers find vacant spaces quickly. It provides real-time parking information and allows contactless payment of fees.
Miguel Angel Perdiguero - Head of BIG data & analytics Atos Iberia - semanain...COIICV
This document discusses Industry 4.0 and the digital transformation of industry. It describes key technological pillars like the Internet of Things, additive manufacturing, and data analytics. It provides examples of how these technologies can be applied through predictive maintenance and customized products. The document also introduces Atos Codex, an open industrial analytics platform that uses big data, high performance computing, and machine learning to deliver business insights and solutions.
nlock the Power of Industrial IoT (IIoT) with Our Ultimate Implementation Guide! 🌐💡 Learn how IIoT is transforming businesses, enhancing efficiency, and driving innovation. Get started on your IIoT journey today!
Current state of industrial IoT / Industrie 4.0 markets - IoT Tech ExpoKnud Lasse Lueth
This document provides an overview of the current state of Industrial IoT/Industrie 4.0 markets based on a presentation given in June 2017. It finds that while connected industry projects make up around 22% of IoT projects, the industry is still immature with no standard architecture and a lack of data science skills. Predictive maintenance is identified as the use case with the largest market opportunity by 2025. Barriers to growth include a lack of interoperability standards and data science skills.
The document introduces OIC (Open Interconnect Consortium) and OIP (Open Internet Platform), two open source platforms for IoT. It provides background on the speaker and discusses the need to move beyond the hype around IoT to realize its full potential. OIC aims to establish interoperability standards while OIP provides an open source platform for building IoT solutions across different domains like smart cities. The speaker invites participation in growing the OIP open source community to develop IoT applications in Vietnam.
1) The document discusses trends in industry digitization and the 4th Industrial Revolution, including how 5G deployment is accelerating and enabling new opportunities like industrial internet, smart manufacturing, and AI applications.
2) Key technologies discussed include 5G, edge computing, heterogeneous computing architectures, and wireless connectivity solutions to enable flexible manufacturing and industries.
3) Use cases for 5G in manufacturing are presented, focusing on applications in machine vision, logistics automation, robotics, and predictive maintenance to improve production efficiency and reduce costs.
This document discusses the industrial internet and Internet of Things (IoT), and the business opportunities they present. It provides definitions of these concepts and explains that industrial internet involves systematically applying sensor, communication, and data analysis technologies to improve productivity and create new business. It notes that major industry leaders like Cisco and GE see the industrial internet driving trillions in economic value through increased productivity, optimized asset utilization, and new business models. The document also outlines some of the challenges in realizing this potential, as well as examples of business models and technology solutions that can help companies benefit from the industrial internet.
Internet of Things will generate ample of value to business in coming years, visit http://www.softwebsolutions.com/trends/internet-of-things/internet-of-things-applications.html for more details.
The emerging global trends in IoT are discussed in this presentation. We also look at various other trends in IoT which is now a very common factor that is being used all over the globe
IRJET - Industry 4.0 for Manufacturing Organization in IndiaIRJET Journal
This document discusses the impact of Industry 4.0 on manufacturing organizations in India. Industry 4.0 utilizes technologies like cyber-physical systems, the Internet of Things, cloud computing, big data, and artificial intelligence to connect machines, supply chains and systems. The summary discusses key elements of Industry 4.0, including cyber-physical systems, cloud computing, smart factories, and RFID technology. It also reviews literature on how Industry 4.0 affects skills required by manufacturing departments and maintenance processes. The research method used to study this impact is described as involving a literature review, defining research objectives, designing a survey, collecting and analyzing responses, and developing recommendations.
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The document provides steps to fix an integration issue between The Things Network (TTN) and AWS IoT by updating the outdated CloudFormation template used by TTN. The steps include opening the template from S3, copying the YAML contents, pasting into AWS CloudFormation Designer, changing the solution stack name to the current version, saving and uploading the updated template for use in creating a TTN integration stack.
IoT Platforms Market to surpass $22B by 2023
Leading Vendors:
with Microsoft Azure leader on Cloud
and PTC (ThingWorx) as leader on Application Enablement
Agile adoption is driven by the need for organizations to be able to respond quickly to changes. The Agile Manifesto values individuals and interactions, working software, customer collaboration, and responding to change. Agile uses iterative and incremental development with short feedback loops to deliver working software frequently. Projects with uncertainty benefit from Agile's ability to adapt quickly. Agile roles include cross-functional team members, a product owner, and a facilitator. Common Agile practices include retrospectives, backlog preparation, daily stand-ups, and demonstrations to get frequent feedback.
The document describes a Tensilica Xtensa LX106 processor that runs at 80 MHz, supports between 512 KiB and 4 MiB of memory (up to 16MiB), and has a 580MHz MIPS architecture. It was authored by Mahmoud Ben Taher in May 2018.
How can IoT reduce waiting queues & Optimize Public Sector ServicesMahmoud BEN TAHAR
This document describes an overview of an Internet of Things based queue management system that saves customer wasted time and improves office efficiency.
This document describes an Internet of Things based queue management system that provides several benefits. The system uses a queue printer, display counter, local computer, cloud server, and mobile application. It works by assigning customers a ticket from the printer, updating the ticket number and display counter in the cloud, and allowing remote customers to check wait times and traffic via the web service. The key advantages are providing information to customers without needing to visit the office, archiving statistics for planning, and distributing customer load across multiple offices.
The document discusses overcoming hesitation and procrastination by failing fast and learning from mistakes. It argues life is too short to waste time hesitating, and most people hesitate due to a fear of failure. However, the key is to take action now, accept that failure may occur but can be used to learn and adjust. When starting a new project, one should limit scope, control costs to fail cheaply, and control risks. Once a fast failure occurs, evaluate lessons learned, adjust the approach, and try again.
This document outlines 5 strategies for overcoming procrastination and improving productivity: 1) Doing one task at a time without multitasking, 2) Setting realistic deadlines, 3) Focusing on starting tasks rather than perfection, 4) Using the Pomodoro time-boxing technique of working in 25-minute intervals, and 5) Taking walks to allow the subconscious mind to process tasks. Procrastination leads to missed opportunities and poor productivity and increased stress.
This presentation introduces the Arduino prototyping platform. It discusses Arduino products like the Uno, features like digital and analog input/output, and how to write sketches for common tasks like digital input/output, serial communication, analog-to-digital conversion, pulse-width modulation for motor control, and radio frequency communication. The presentation follows an agenda that includes introductions, various programming techniques, a break, and concludes with questions and feedback.
Supermarket Management System Project Report.pdfKamal Acharya
Supermarket management is a stand-alone J2EE using Eclipse Juno program.
This project contains all the necessary required information about maintaining
the supermarket billing system.
The core idea of this project to minimize the paper work and centralize the
data. Here all the communication is taken in secure manner. That is, in this
application the information will be stored in client itself. For further security the
data base is stored in the back-end oracle and so no intruders can access it.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELijaia
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Design and optimization of ion propulsion dronebjmsejournal
Electric propulsion technology is widely used in many kinds of vehicles in recent years, and aircrafts are no exception. Technically, UAVs are electrically propelled but tend to produce a significant amount of noise and vibrations. Ion propulsion technology for drones is a potential solution to this problem. Ion propulsion technology is proven to be feasible in the earth’s atmosphere. The study presented in this article shows the design of EHD thrusters and power supply for ion propulsion drones along with performance optimization of high-voltage power supply for endurance in earth’s atmosphere.
VARIABLE FREQUENCY DRIVE. VFDs are widely used in industrial applications for...PIMR BHOPAL
Variable frequency drive .A Variable Frequency Drive (VFD) is an electronic device used to control the speed and torque of an electric motor by varying the frequency and voltage of its power supply. VFDs are widely used in industrial applications for motor control, providing significant energy savings and precise motor operation.
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Gas agency management system project report.pdfKamal Acharya
The project entitled "Gas Agency" is done to make the manual process easier by making it a computerized system for billing and maintaining stock. The Gas Agencies get the order request through phone calls or by personal from their customers and deliver the gas cylinders to their address based on their demand and previous delivery date. This process is made computerized and the customer's name, address and stock details are stored in a database. Based on this the billing for a customer is made simple and easier, since a customer order for gas can be accepted only after completing a certain period from the previous delivery. This can be calculated and billed easily through this. There are two types of delivery like domestic purpose use delivery and commercial purpose use delivery. The bill rate and capacity differs for both. This can be easily maintained and charged accordingly.
Mechatronics is a multidisciplinary field that refers to the skill sets needed in the contemporary, advanced automated manufacturing industry. At the intersection of mechanics, electronics, and computing, mechatronics specialists create simpler, smarter systems. Mechatronics is an essential foundation for the expected growth in automation and manufacturing.
Mechatronics deals with robotics, control systems, and electro-mechanical systems.
3. 3
IIoT monitoring help ensuring
that people are working in a
safe environment and products
are produced in a suitable
conditions (temperature,
humidity , air quality)
05
Monitoring work environment
Keeping assets up and
running has the potential to
significantly decreasing
operational expenditures
(opex), and save companies
millions of dollars
04
Predictive Maintenance
IIOT provides centralized
real-time and accurate
information about raw
material and finished
products to all stakeholder.
02
Inventory Management
Connect factory asset in
order to provide real-time
information on production
flow to operation managers
01
Connected Factory
IIoT provide access to real-
time supply chain
information by tracking
materials and products as
they move through the
supply chain. . IIoT data
collection system feeds
ERP/PLM.
03
Supply Chain Optimization
Common Use Cases
5. 5
Thyssen Krupp
The company operates more than 1.1 million elevators worldwide. In 2013, a partnership was initiated
with Microsoft on Azure IoT in order to collect various measurements data including engine
temperature, shaft alignment, speed, door functionality …
Results : All these parameters process in real time helped to anticipate failure and hence to reduce
downtime and palliative maintenance.
6. 6
Sharper Shape
Finnish company Sharper Shape have been using drones to map utility networks. They use machine
learning to identify trees that are at risk of falling onto power lines. CEO Tero Heinonen recently
declared that using drones to perform this task rather than humans can cut those costs by around 30%.
7. 7
Volkswagen
In October 2013, Volkswagen developed mobile app MARTA (Mobile Augmented Reality Technical
Assistance), based on data collected by onboard electronics, the app allows: Instant identification of a
problem via a mixture of real images and virtual information help repair with technical explanations and
video simulations for each step
8. 8
1. Operational Efficiency
• Asset Utilization
• Operational cost reduction
• Worker productivity
• Continuous demand sensing
• End-to-end automation
• Resource optimization and
waste reduction
4 . A u t o n o m o u s ,
p u l l e c o n o m y
• Pay-per-outcome
• New connected ecosystem
• Platform-enabled market place
3 . O u t c o m e
E c o n o m y
• New business models
• Software-based
services
• Data Monetization
2 . N e w P r o d u c t s
& S e r v i c e s
The adoption and impact path of IIoT
4 Phases
Near-term
Long-term
9. 9
Mahmoud Ben Taher : Fabruary 2018 - mahmoudbt@gmail.com
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