1. Manufacturers are facing the challenge of managing complex supply networks in industries like aerospace, defense, and electronics. A digital thread unifying design, manufacturing, and ERP data can help address this complexity by providing a single source of product truth.
2. Realizing a digital thread requires integrating ERP, PLM, and new product lifecycle execution (PLE) systems to close the loop between design, engineering, production, quality, and resources. iBASEt's Solumina suite connects these systems to create a seamless flow of data.
3. Solumina collects data from PLM systems and flows it into manufacturing, while changes made are fed back to engineering. It closes the loop across the
Sokszor találkozol a digital thread kifejezéssel, de nem tudod hogy pontosan micsoda? Kíváncsi lenné rá, hogyan használják a cégek? Olvasd el prezentációnkat, amit előadtunk az idei Simonyi Konferencián!
Digital transformation in the manufacturing industryBenji Harrison
The document discusses how digital transformation through technologies like Industry 4.0, IoT, big data, VR/AR, and artificial intelligence can benefit manufacturers. Industry 4.0 uses advanced technologies like smart sensors to increase visibility, minimize costs, and speed up production. IoT networks connect intelligent devices to gather and analyze data for cost control, efficiency, and innovation. Big data and advanced analytics provide insights from historical data to optimize processes. VR/AR technologies improve product design and help workers perform tasks faster and more accurately. Artificial intelligence and analytics help integrate systems for greater speed and scale.
Think Global, Work Digital. Cisco Industry 4.0Matteo Masi
The document discusses digital transformation and Industry 4.0. It defines digital business transformation as transforming and recoding business processes and models, changing culture to prioritize efficiency and innovation, and creating user-focused experiences. Industry 4.0 is described as the digitization of the manufacturing sector driven by increases in data, computing power, connectivity, analytics capabilities, and improvements in transferring digital instructions to the physical world. Successful digital transformation requires reimagining business, processes, managing data, security, and connectivity to drive analytics and applications.
The document discusses how internet of things (IoT) technologies can enable smart, connected products and manufacturing operations. It describes how sensors, software, connectivity and data analytics can transform individual products into smart products and manufacturing assets into connected systems with increased visibility, automation, and productivity. The document provides examples of companies that have implemented IoT solutions to improve operations and increase productivity in manufacturing by 8-10%.
Digital Transformation for Manufacturing IndustriesMargot Heiligman
What are some of the trends that driving the manufacturing industries in this digital economy era? What do these mean for the manufacturing businesses and how can they run and sell smarter? Download this presentation deck and learn more. You can also watch the On-Demand Webinar here: http://tinyurl.com/bcrmAPJ216
We live in times of lightning-quick change. Cloud is now the engine of digital transformation, and digitization is transforming both business models and personal lifestyles. Companies have to adapt fast to seize the opportunities and meet new challenges.
ThingWorx Connectors - How to Make Different Systems "Speak the Same Language"Joseph Lopez, M.ISM
Peter Pfalzgraf, Head of Business Units for PROSTEP AG presents how PROSTEP Solutions Integrate with ThingWorx Connectors - Enterprise IoT Solutions and Platform Technology
Sokszor találkozol a digital thread kifejezéssel, de nem tudod hogy pontosan micsoda? Kíváncsi lenné rá, hogyan használják a cégek? Olvasd el prezentációnkat, amit előadtunk az idei Simonyi Konferencián!
Digital transformation in the manufacturing industryBenji Harrison
The document discusses how digital transformation through technologies like Industry 4.0, IoT, big data, VR/AR, and artificial intelligence can benefit manufacturers. Industry 4.0 uses advanced technologies like smart sensors to increase visibility, minimize costs, and speed up production. IoT networks connect intelligent devices to gather and analyze data for cost control, efficiency, and innovation. Big data and advanced analytics provide insights from historical data to optimize processes. VR/AR technologies improve product design and help workers perform tasks faster and more accurately. Artificial intelligence and analytics help integrate systems for greater speed and scale.
Think Global, Work Digital. Cisco Industry 4.0Matteo Masi
The document discusses digital transformation and Industry 4.0. It defines digital business transformation as transforming and recoding business processes and models, changing culture to prioritize efficiency and innovation, and creating user-focused experiences. Industry 4.0 is described as the digitization of the manufacturing sector driven by increases in data, computing power, connectivity, analytics capabilities, and improvements in transferring digital instructions to the physical world. Successful digital transformation requires reimagining business, processes, managing data, security, and connectivity to drive analytics and applications.
The document discusses how internet of things (IoT) technologies can enable smart, connected products and manufacturing operations. It describes how sensors, software, connectivity and data analytics can transform individual products into smart products and manufacturing assets into connected systems with increased visibility, automation, and productivity. The document provides examples of companies that have implemented IoT solutions to improve operations and increase productivity in manufacturing by 8-10%.
Digital Transformation for Manufacturing IndustriesMargot Heiligman
What are some of the trends that driving the manufacturing industries in this digital economy era? What do these mean for the manufacturing businesses and how can they run and sell smarter? Download this presentation deck and learn more. You can also watch the On-Demand Webinar here: http://tinyurl.com/bcrmAPJ216
We live in times of lightning-quick change. Cloud is now the engine of digital transformation, and digitization is transforming both business models and personal lifestyles. Companies have to adapt fast to seize the opportunities and meet new challenges.
ThingWorx Connectors - How to Make Different Systems "Speak the Same Language"Joseph Lopez, M.ISM
Peter Pfalzgraf, Head of Business Units for PROSTEP AG presents how PROSTEP Solutions Integrate with ThingWorx Connectors - Enterprise IoT Solutions and Platform Technology
This document discusses Industrie 4.0, the fourth industrial revolution bringing connectivity and intelligence to manufacturing through technologies like the Internet of Things. Key concepts are connecting physical devices to networks and machines interacting with each other to enable mass customization. This transformation integrates horizontal and vertical networking in factories. Six design principles are outlined: interoperability, virtualization, decentralization, real-time capability, service orientation, and modularity. Diagrams show examples of smart factories and supply chains enabled by Industrie 4.0.
MongoDB IoT City Tour LONDON: Industrial Internet, Industry 4.0, Smart Factor...MongoDB
The document discusses Industry 4.0 and the Industrial Internet. It describes how connecting physical devices and sensors to collect and analyze data (i.e. the Internet of Things) enables new applications and business models. The Bosch Software Innovations Suite is presented as a platform for developing IoT solutions, with capabilities for device management, business rules management, and process management. Examples of IoT applications are provided for asset tracking, supply chain monitoring, and remote patient monitoring.
The document discusses digital twins, which are dynamic digital representations of physical assets that allow companies to understand, predict, and optimize asset performance. Digital twins use asset data like sensor readings, events, and models to generate insights about an asset's current context, key performance indicators (KPIs), and future predictions. A digital twin platform is needed to manage digital twins at scale across edge, network and cloud environments and expose twin data and insights via APIs. This allows industrial applications to leverage digital twins without needing direct access to the underlying data and models.
The document discusses the history of industrial revolutions from the first to the fourth revolution. It outlines the key technologies and transformations that occurred in each revolution. The first revolution involved mechanization powered by steam engines. The second revolution brought about mass production using assembly lines and electricity. The third revolution saw the rise of automation and computer technology. The fourth and current revolution is characterized by cyber-physical systems, cloud computing, additive manufacturing, the internet of things, autonomous robots, and enhanced cybersecurity.
MongoDB IoT City Tour STUTTGART: Industrial Internet, Industry 4.0, Smart Fac...MongoDB
Presented by, Dirk Slama, Business Development Director at Bosch SI
Industrial Internet, Smart Factory, Industry 4.0 – all of these concepts are promising to transform the current industrial landscape by leveraging the IoT. In this presentation, Bosch, TechMahindra and MongoDB will present a concrete example that goes from concept to implementation. Learn how advanced handheld tightening tools, user ID cards, wireless indoor localisation technology, M2M asset management and big data can be combined to form a powerful track and trace solution for advanced manufacturing requirements.
This document discusses how digitization and mobile technology are transforming businesses and customer experiences. It summarizes Cisco's solutions for digitizing businesses through network-enabled applications, including:
1) Cisco's Digital Network Architecture which provides an open, software-driven network to power digital businesses through automation, analytics, security and compliance capabilities.
2) Solutions like Cisco CMX that provide location analytics and services to understand customer behavior and enable personalized engagement through wireless infrastructure.
3) Cisco's Network as a Service approach which provides visibility into network activity alongside consistent security policies to block threats and prevent lateral movement.
Collaborating with partners to inspire business innovations for an intelligen...Huawei Technologies
This document discusses how a medium-sized polyurethane manufacturer faces problems with raw material quality, product quality, and customer/employee management that cost over CNY 2.75 million per year. It proposes using new technologies like supply chain management, production process control, and CRM/ERP systems to address these issues but notes the costs are unaffordable and they lack IT skills. The highest priority requests are eliminating poor quality materials and gaining new sales channels. The document then discusses how SMEs can benefit from technologies like digitalization and the cloud to improve quality and reputation at lower costs than developing solutions internally. It proposes collaboration within an open ecosystem to help all players overcome weaknesses. The cloud provides opportunities for globalization
This document discusses Industry 4.0 and the future of work and skills. It provides a historical view of the four industrial revolutions from the late 18th century to today. Industry 4.0 is characterized by technologies like cloud computing, artificial intelligence, big data analytics, the internet of things, robotics, and more. Examples are given of how companies like Siemens, Trumpf, and GE are implementing Industry 4.0. The document also discusses research findings from NASSCOM/EY on future skills and new professions needed for Industry 4.0 like analytical thinking, collaboration, and technology design. It concludes with questions about the future of work and skills.
Impact for Educational Institutions, Internet of things, Digital Enablers, New Age Production, Smart Factory, New digital industrial technology, Interdisciplinary Thinking, Digital Work Place, 3d printing,
Please see this exciting news from Wunderlich-Malec Engineering.
Be sure to visit our VIP Tower webpage at http://www.wmvipservices.com/
Thank you in advance for your coverage of this exciting news.
Industry 4.0 refers to the fourth industrial revolution driven by four disruptions: exponentially growing data and computing power, new analytics capabilities, advanced human-machine interaction, and improvements in transferring digital instructions to the physical world. Key aspects of Industry 4.0 include smart manufacturing platforms that enable data and resource sharing, advanced customization enabled by digital technologies like 3D printing, pay-per-use business models, smart connected products and machines, predictive maintenance using sensors and analytics, and new digital business models focused on services rather than products. While the impacts will be significant, changing industrial operations will likely take time as factories have long investment cycles.
Digital Twin refers to a physical and functional description of a component, product or system together with all available operational data. This includes all information which could be useful in current and subsequent lifecycle phases. Benefit of it for mechatronic and cyber-physical systems is to provide the information created during design and engineering also at the operation of the system. The comprehensive networking of all information, shared between partners and connecting design, production and usage, forms the presented paradigm of next generation Digital Twin.
We’re in the midst of a significant transformation regarding the way we produce products thanks to the digitization of manufacturing. This compelling transition is called Industry 4.0 – which is a representation of the fourth revolution that has occurred in manufacturing. Like the three industrial revolutions which preceded it – steam power, mass production/electricity, digital age – Industry 4.0 will transform local and global economies and create a new future for us all.
Researching How Cloud Computing Enhances the Businesses GrowthAJASTJournal
The Internet of Things (IoT) changes several sectors, including education, logistics, and manufacturing. The IoT is a web-based system that integrates and syncs a wide range of machines or appliances with gates, third-party technologies, and apps on machinery and cloud computing networks. Cloud computing performs a significant part in the framework layer with the thriving development of IoT. In a range of industries cloud computing technology was built into unique forms of cloud computing: Everything-as-a-Sevice (Xaas), Education-as-a-Service (EaaS), Logistics-as-a-Service (LaaS), and Manufacturing-as-a-Service (MaaS). Researchers and professionals have drawn substantial attention to the applicability of cloud computing in different sectors. Essential evaluation, framework architecture, and structural study are the primary forms of science. Large data, computational technology, service orientation, and IoT refer to cloud computing systems (e.g., XaaS, EaaS, LaaS, MaaS). This research analyzed the technological patterns in new cloud computing technology and examined cloud computing studies. The results demonstrate that knowledge and innovation are the main concerns guiding cloud science.
Saudi Arabia IoT in Manufacturing Market Forecast 2025 | TechSci ResearchTechSci Research
According to www.techsciresearch.com latest report- Saudi Arabia IoT in Manufacturing Market, By Component (Solutions, Platforms and Services), By Application Area (Predictive Maintenance, Business Process Optimization, etc.), By Vertical (Energy & Utilities, Automotive, Food & Beverages, Aerospace & Defence, etc.) By Company, Competition, Forecast & Opportunities, 2025.
Report URL- https://www.techsciresearch.com/report/saudi-arabia-iot-in-manufacturing-market/2052.html
The document discusses tools and techniques used by Uber's Hadoop team to make their Spark and Hadoop platforms more user-friendly and efficient. It introduces tools like SCBuilder to simplify Spark context creation, Kafka dispersal to distribute RDD results, and SparkPlug to provide templates for common jobs. It also describes a distributed log debugger called SparkChamber to help debug Spark jobs and techniques like building a spatial index to optimize geo-spatial joins. The goal is to abstract out infrastructure complexities and enforce best practices to make the platforms more self-service for users.
IW13 Keynote, Bill Ruh, GE Software—The Emerging Industrial Internet Software AG
Big Industry Trends
The industrial world is undergoing a seismic shift in productivity and efficiency as machines become increasingly intelligent. This shift will result in the creation of an Industrial Internet that will have the same transformative effect as the consumer internet. Intelligence is brought about through innovative sensor technology, machine to machine connectivity, new approaches to automation, and most importantly software that gives insight to people in real-time. This seismic shift to what one venture capitalist has dubbed: 'software eating the world', will require more and more companies to make strategic decisions on their willingness to invest resources and take the risks to capture this increasingly valuable part of the value-chain.
We see companies in the automotive industry doing this already as they are no longer satisfied to simply move people from point A to point B as a manufacturer of cars. Instead they want to capture the software value inherent in the transformation of today's vehicles into entertainment, navigation, and social systems.
The big question for companies that want to win and survive in today's economy is: do you focus on existing products and business models or do you create new integrated hardware/software solutions and services that is greater than the sum of the individual parts. This talk will explore the notion of the Industrial Internet, emerging business opportunities and GE's strategic decision to focus on software and analytic-based services.
This document discusses Industrie 4.0, the fourth industrial revolution bringing connectivity and intelligence to manufacturing through technologies like the Internet of Things. Key concepts are connecting physical devices to networks and machines interacting with each other to enable mass customization. This transformation integrates horizontal and vertical networking in factories. Six design principles are outlined: interoperability, virtualization, decentralization, real-time capability, service orientation, and modularity. Diagrams show examples of smart factories and supply chains enabled by Industrie 4.0.
MongoDB IoT City Tour LONDON: Industrial Internet, Industry 4.0, Smart Factor...MongoDB
The document discusses Industry 4.0 and the Industrial Internet. It describes how connecting physical devices and sensors to collect and analyze data (i.e. the Internet of Things) enables new applications and business models. The Bosch Software Innovations Suite is presented as a platform for developing IoT solutions, with capabilities for device management, business rules management, and process management. Examples of IoT applications are provided for asset tracking, supply chain monitoring, and remote patient monitoring.
The document discusses digital twins, which are dynamic digital representations of physical assets that allow companies to understand, predict, and optimize asset performance. Digital twins use asset data like sensor readings, events, and models to generate insights about an asset's current context, key performance indicators (KPIs), and future predictions. A digital twin platform is needed to manage digital twins at scale across edge, network and cloud environments and expose twin data and insights via APIs. This allows industrial applications to leverage digital twins without needing direct access to the underlying data and models.
The document discusses the history of industrial revolutions from the first to the fourth revolution. It outlines the key technologies and transformations that occurred in each revolution. The first revolution involved mechanization powered by steam engines. The second revolution brought about mass production using assembly lines and electricity. The third revolution saw the rise of automation and computer technology. The fourth and current revolution is characterized by cyber-physical systems, cloud computing, additive manufacturing, the internet of things, autonomous robots, and enhanced cybersecurity.
MongoDB IoT City Tour STUTTGART: Industrial Internet, Industry 4.0, Smart Fac...MongoDB
Presented by, Dirk Slama, Business Development Director at Bosch SI
Industrial Internet, Smart Factory, Industry 4.0 – all of these concepts are promising to transform the current industrial landscape by leveraging the IoT. In this presentation, Bosch, TechMahindra and MongoDB will present a concrete example that goes from concept to implementation. Learn how advanced handheld tightening tools, user ID cards, wireless indoor localisation technology, M2M asset management and big data can be combined to form a powerful track and trace solution for advanced manufacturing requirements.
This document discusses how digitization and mobile technology are transforming businesses and customer experiences. It summarizes Cisco's solutions for digitizing businesses through network-enabled applications, including:
1) Cisco's Digital Network Architecture which provides an open, software-driven network to power digital businesses through automation, analytics, security and compliance capabilities.
2) Solutions like Cisco CMX that provide location analytics and services to understand customer behavior and enable personalized engagement through wireless infrastructure.
3) Cisco's Network as a Service approach which provides visibility into network activity alongside consistent security policies to block threats and prevent lateral movement.
Collaborating with partners to inspire business innovations for an intelligen...Huawei Technologies
This document discusses how a medium-sized polyurethane manufacturer faces problems with raw material quality, product quality, and customer/employee management that cost over CNY 2.75 million per year. It proposes using new technologies like supply chain management, production process control, and CRM/ERP systems to address these issues but notes the costs are unaffordable and they lack IT skills. The highest priority requests are eliminating poor quality materials and gaining new sales channels. The document then discusses how SMEs can benefit from technologies like digitalization and the cloud to improve quality and reputation at lower costs than developing solutions internally. It proposes collaboration within an open ecosystem to help all players overcome weaknesses. The cloud provides opportunities for globalization
This document discusses Industry 4.0 and the future of work and skills. It provides a historical view of the four industrial revolutions from the late 18th century to today. Industry 4.0 is characterized by technologies like cloud computing, artificial intelligence, big data analytics, the internet of things, robotics, and more. Examples are given of how companies like Siemens, Trumpf, and GE are implementing Industry 4.0. The document also discusses research findings from NASSCOM/EY on future skills and new professions needed for Industry 4.0 like analytical thinking, collaboration, and technology design. It concludes with questions about the future of work and skills.
Impact for Educational Institutions, Internet of things, Digital Enablers, New Age Production, Smart Factory, New digital industrial technology, Interdisciplinary Thinking, Digital Work Place, 3d printing,
Please see this exciting news from Wunderlich-Malec Engineering.
Be sure to visit our VIP Tower webpage at http://www.wmvipservices.com/
Thank you in advance for your coverage of this exciting news.
Industry 4.0 refers to the fourth industrial revolution driven by four disruptions: exponentially growing data and computing power, new analytics capabilities, advanced human-machine interaction, and improvements in transferring digital instructions to the physical world. Key aspects of Industry 4.0 include smart manufacturing platforms that enable data and resource sharing, advanced customization enabled by digital technologies like 3D printing, pay-per-use business models, smart connected products and machines, predictive maintenance using sensors and analytics, and new digital business models focused on services rather than products. While the impacts will be significant, changing industrial operations will likely take time as factories have long investment cycles.
Digital Twin refers to a physical and functional description of a component, product or system together with all available operational data. This includes all information which could be useful in current and subsequent lifecycle phases. Benefit of it for mechatronic and cyber-physical systems is to provide the information created during design and engineering also at the operation of the system. The comprehensive networking of all information, shared between partners and connecting design, production and usage, forms the presented paradigm of next generation Digital Twin.
We’re in the midst of a significant transformation regarding the way we produce products thanks to the digitization of manufacturing. This compelling transition is called Industry 4.0 – which is a representation of the fourth revolution that has occurred in manufacturing. Like the three industrial revolutions which preceded it – steam power, mass production/electricity, digital age – Industry 4.0 will transform local and global economies and create a new future for us all.
Researching How Cloud Computing Enhances the Businesses GrowthAJASTJournal
The Internet of Things (IoT) changes several sectors, including education, logistics, and manufacturing. The IoT is a web-based system that integrates and syncs a wide range of machines or appliances with gates, third-party technologies, and apps on machinery and cloud computing networks. Cloud computing performs a significant part in the framework layer with the thriving development of IoT. In a range of industries cloud computing technology was built into unique forms of cloud computing: Everything-as-a-Sevice (Xaas), Education-as-a-Service (EaaS), Logistics-as-a-Service (LaaS), and Manufacturing-as-a-Service (MaaS). Researchers and professionals have drawn substantial attention to the applicability of cloud computing in different sectors. Essential evaluation, framework architecture, and structural study are the primary forms of science. Large data, computational technology, service orientation, and IoT refer to cloud computing systems (e.g., XaaS, EaaS, LaaS, MaaS). This research analyzed the technological patterns in new cloud computing technology and examined cloud computing studies. The results demonstrate that knowledge and innovation are the main concerns guiding cloud science.
Saudi Arabia IoT in Manufacturing Market Forecast 2025 | TechSci ResearchTechSci Research
According to www.techsciresearch.com latest report- Saudi Arabia IoT in Manufacturing Market, By Component (Solutions, Platforms and Services), By Application Area (Predictive Maintenance, Business Process Optimization, etc.), By Vertical (Energy & Utilities, Automotive, Food & Beverages, Aerospace & Defence, etc.) By Company, Competition, Forecast & Opportunities, 2025.
Report URL- https://www.techsciresearch.com/report/saudi-arabia-iot-in-manufacturing-market/2052.html
The document discusses tools and techniques used by Uber's Hadoop team to make their Spark and Hadoop platforms more user-friendly and efficient. It introduces tools like SCBuilder to simplify Spark context creation, Kafka dispersal to distribute RDD results, and SparkPlug to provide templates for common jobs. It also describes a distributed log debugger called SparkChamber to help debug Spark jobs and techniques like building a spatial index to optimize geo-spatial joins. The goal is to abstract out infrastructure complexities and enforce best practices to make the platforms more self-service for users.
IW13 Keynote, Bill Ruh, GE Software—The Emerging Industrial Internet Software AG
Big Industry Trends
The industrial world is undergoing a seismic shift in productivity and efficiency as machines become increasingly intelligent. This shift will result in the creation of an Industrial Internet that will have the same transformative effect as the consumer internet. Intelligence is brought about through innovative sensor technology, machine to machine connectivity, new approaches to automation, and most importantly software that gives insight to people in real-time. This seismic shift to what one venture capitalist has dubbed: 'software eating the world', will require more and more companies to make strategic decisions on their willingness to invest resources and take the risks to capture this increasingly valuable part of the value-chain.
We see companies in the automotive industry doing this already as they are no longer satisfied to simply move people from point A to point B as a manufacturer of cars. Instead they want to capture the software value inherent in the transformation of today's vehicles into entertainment, navigation, and social systems.
The big question for companies that want to win and survive in today's economy is: do you focus on existing products and business models or do you create new integrated hardware/software solutions and services that is greater than the sum of the individual parts. This talk will explore the notion of the Industrial Internet, emerging business opportunities and GE's strategic decision to focus on software and analytic-based services.
E1: Building the Digital Twin (Predix Transform 2016)Predix
http://predixtransform.com
Understand how to develop analytics models using the Asset and Analytics services within Predix. We'll start with a quick tour of the conceptual framework, and then dive deep into actual modeling and deployment examples that you can use. This session will include demo and code walk-through.
Securing the Manufacturing Digital ThreadFrank Backes
This document discusses securing the manufacturing digital thread and outlines reasons for improving security such as business stability, safety, customer requirements, and legal liabilities. It notes potential consequences of security breaches like loss of production, injury, IP theft, and damaged reputation. The document recommends assembling a cross-functional team and following an agile approach to security that starts with one project like network segregation and allows for iterative improvement.
The document discusses using industrial data science and cloud technologies to create digital twins of industrial plants and machinery. It involves collecting time series data from sensors and controllers at different timescales, storing and analyzing the data, developing predictive models, and using the digital twin for optimization, anomaly detection, and decision making. The goal is to transform industrial processes by automating design, standardizing procedures, simplifying workflows, and delivering improvements in quality, robustness, and customer satisfaction through the use of digital technologies.
- The document discusses how real estate agents need to develop an effective "digital twin" or online presence to stay competitive as the industry becomes more digital. It emphasizes building a strong online foundation through owning your domain name, developing a complete LinkedIn profile, and creating a profile video.
- On top of this foundation, agents need to develop active presences on various social media platforms and populate their website with useful content like neighborhood videos and business directories. They also need to strategically use platforms like Facebook for targeted advertising.
- The document warns that agents who do not effectively use technology risk being replaced by those who do, as the industry and consumer expectations continue rapidly evolving in a digital direction.
The document discusses digital twins, burst computing, and cloud HPC. It provides examples of how digital twins use detailed models and real-time data to enable failure prediction, optimization, and future forecasting. Burst computing is described as using elastic cloud resources to handle temporary spikes in computing needs for tasks like digital twin simulations. Several use cases are mentioned where companies are using AWS cloud HPC resources on a pay-per-use basis to flexibly handle burst computing needs like large-scale simulations. The presentation encourages further collaboration on leveraging cloud HPC technologies.
Download our special report, IoT Tech for the Manager: http://bit.ly/report1-slideshare
Hey IT, Meet OT as presented at the IoT Inc Business' fifteenth Meetup. See: http://www.iot-inc.com/hey-it-meet-ot-meetup/
In our fifteenth Meetup we have Hima Mukkamala, Head of Engineering at Predix, GE Digital presenting “Hey IT, Meet OT”.
Presentation Abstract
Software has been the domain of information technology, but it is quickly becoming key to operations technology as well. Operating smart, networked machines from wind turbines to jet engines requires an intricate understanding of both the machines and the data and information that flows through them. The combination of these two disciplines is bringing new efficiencies and capabilities that do more—faster and cheaper. The key is leveraging connectivity, data, and mobility to optimize efficiency and deliver new services to customers. Join Hima Mukkamala of GE Digital to hear how software technology can help companies bridge the divide between IT and OT and how IT can help industrial companies build, deploy, and manage Industrial Internet applications that bring game-changing efficiencies to businesses.
[GE Innovation Forum 2015] GE Technology Story (한글)GE코리아
[GE Innovation Forum 2015] GE Technology Story (한글)
‘GE이노베이션포럼 2015’에서 공식자료집과 함께 제공된 이 책자는 GE의 첨단기술에 대한 이야기를 담고 있습니다.
첨단 인프라 기술을 기반으로 한 GE만의 경쟁우위를 나타내는 개념인 GE 스토어를 중심으로, GE의 신기술을 설명합니다. GE의 기술을 통한 사회적 커뮤니케이션을 담은 스토리텔링 북인 셈입니다. 그동안 발행되었던 GE코리아의 디지털 콘텐츠를 엄선하여 간추려 정리하였습니다.
GE는 자사의 웹사이트를 다양한 기원과 형태를 지닌 GE 콘텐츠들이 있는, 흘러가는 집이라고 표현합니다. 스토리를 말하거나 쓰는 사람, 읽거나 듣는 사람들이 자유롭고 유동적으로 콘텐츠를 활용하는 것이 중요하다는 의도일 것입니다.
GE만이 들려줄 수 있는 기술친화적 스토리텔링 콘텐츠들이 더 많은 이들과 만나 새로운 아이디어나 영감으로 이어지기를 희망합니다.
GE코리아 뉴스레터를 구독하세요! http://goo.gl/IE8WS8
GE코리아 YouTube 채널을 구독하세요! http://goo.gl/M2gc8m
상상을 현실로 만듭니다. Imagination at work.
GE가 꿈꾸는 가치입니다. 아니, GE는 단지 꿈만 꾸고 있는 것이 아닙니다. 상상을 현실로 만들기 위해, 불가능했던 것을 가능하게 만들기 위해 쉬지 않고 움직이고 있습니다. GE는 에너지, 의료, 항공, 수송, 금융 등의 여러 분야에서 고객과 인류사회의 진보를 위해 더 편리하고 빠르며 친환경적인 솔루션을 찾아냅니다.
Connect with GE Online:
GE코리아 웹사이트: http://www.ge.com/kr/
GE리포트코리아: http://www.gereports.kr/
GE코리아 페이스북 페이지: hhttps://www.facebook.com/GEKorea
GE코리아 슬라이드쉐어: http://www.slideshare.net/GEKorea
This document summarizes Presto, an open source distributed SQL query engine. It discusses Presto's use at Facebook for interactive queries of Hadoop data warehouses containing petabytes of data with thousands of daily users. It also outlines Presto's use by other companies like Netflix, Twitter, Uber, and FINRA. The document reviews new Presto features like DDL support and performance optimizations. It concludes with Presto's roadmap including future plans for materialized views, workload management, and a cost-based optimizer.
Presto: Distributed SQL on Anything - Strata Hadoop 2017 San Jose, CAkbajda
Teradata joined the Presto community in 2015 and is now a leading contributor to this open source SQL engine, originally created by Facebook. The project has a rapidly growing community of users, including Airbnb, FINRA, Netflix, Twitter, and Uber. Kamil Bajda-Pawlikowski explores the key architectural components that allow querying variety of data sources and make Presto uniquely position to be applied in both Hadoop and Cloud use cases. Along the way, Kamil covers Teradata’s recent enhancements in query performance, security integrations, and ANSI SQL coverage and shares the roadmap for 2017 and beyond.
The document outlines 6 of the hottest fintech trends to look out for in 2017:
1) Increased use of artificial intelligence and predictive analytics by fintech companies.
2) Growing popularity of mobile transactions using just a phone number.
3) Less need for cash and cards as contactless payments from phones increase.
4) Improved security through biometric authentication like fingerprints and facial recognition.
5) Rising adoption of cloud technology by businesses and fintech innovators.
6) Faster payments and more innovative solutions as traditional models are disrupted.
Creating Narrated Presentations with SlideShare (narrated)Carolyn Kraut
This document provides instructions for creating narrated presentations using SlideShare. It outlines the benefits of creating "Slidecasts" on SlideShare such as social integration and the ability to add narrations, YouTube videos, and host live webinars. However, it notes some disadvantages such as not being able to add both narrations and YouTube videos, limitations on animations/transitions, and lack of privacy with free accounts. The process involves uploading the presentation to SlideShare, recording audio using Audacity as an MP3, uploading the MP3 to SlideShare and syncing it to the slides, and then viewing or embedding the finished Slidecast. Alternatives like attaching files to Blackboard or combining Google
General introduction to FinTech.
What you will learn by reading this presentation:
> What is FinTech
> Why it works
> Where it works
> How it might impact you
Looking forward to reading your comments
Smart Factory es un concepto que se refiere a la innovación llevada a cabo en entornos industriales. En esta presentación, revisamos 4 tendencias en innovación industrial: 1. Innovando con startups, 2. Industria 4.0, Abierto y/o Cerrado y, 4. Micro-Fabricas.
How many different subtypes of FinTech do we actually have? MichalGromek
FinTech remains buzzwords for a long period as it is still unclear what it consists of, this is a presentation for a kickoff session around the division of FinTech, which will be used in data collection for FinTech in Sweden. Results are expected in June 2017.
This document discusses ISG's engineering services and solutions for transforming businesses. It outlines ISG's approach of assessing clients' operations and strategies, developing target operating models, and setting up global engineering centers. ISG focuses on industries like automotive, high tech, and aerospace. The document promotes follow up workshops to discuss how ISG's offerings can support customers' businesses by building agility, scaling operations, and identifying new revenue streams.
Thailand Fintech landscape 2016 special report by techsauce Techsauce Media
Thailand Fintech landscape 2016 by techsauce.co including:
- What is Fintech?
- Fintech in Asia
- Fintech in Thailand
- Collaboration between big enterprises and startups
To run the ultra-integrated smart factories of Industry 4.0, programmers are having to write increasingly complex software. As they do, the cost of developing and maintaining this software is skyrocketing. Intelligently linked mapp technology components allow you to create and support even the most complex solutions faster and easier – and keep mountains of software from becoming bottomless money pits.
Evolution of cadcamcae techonology and value to the industry v1.compressedStephen Au
Lecture Note of BIM (1/6)
Objectives
*To understand the evolution of CAX technology in manufacturing industry
*The drivers of adoption of the CAX technology
*The value of using CAX technology in product development
Question
*What if building construction industry can apply the same technology ?
*What are the similarity and what are the difference?
www.mtech.com.hk
Exploring the Megatrends of Digital Engineering Services Flexsin
If you want to accelerate growth and transform your organization, contact Flexsin- a trusted digital engineering company. They help businesses unlock the latest tools and technologies to optimize business processes and improve outcomes.
https://www.flexsin.com/digital-engineering/
Digital twin technology creates virtual representations of physical objects that can accurately mimic the object's performance. A digital twin consists of data sets that represent all aspects of the physical object. It allows designers to test new designs virtually and helps monitor physical objects throughout their lifecycle to predict failures and optimize performance. Key characteristics of a digital twin include connectivity, reprogrammability, digital traces, and modularity. Digital twins have applications in manufacturing, healthcare, transportation and other industries to improve design, detection of issues, and decision making. Underlying technologies that enable digital twins include the Internet of Things, artificial intelligence, and data science.
The document discusses the concept of the adaptive digital factory enabled by emerging technologies like the Internet of Things (IoT). Key points include:
- The IoT allows devices and assets on the factory floor and throughout the product lifecycle to be connected, monitored, optimized and maintained proactively through prescriptive maintenance.
- Other trends like social media, mobility, analytics and cloud computing (SMAC'T) also impact manufacturing by enabling social collaboration, omni-channel experiences, data-driven optimization and on-demand access.
- When IoT is combined with SMAC'T trends, traditional manufacturing can be transformed into adaptive digital factories with end-to-end connectivity from suppliers to consumers.
Construction technology I Topcon machine control I Alaa AbouEleninAlaa AbouElenin
https://www.youtube.com/watch?v=3Khchk678os
construction technology and automation leading change in the construction industry BIM technology 3D machine control systems 2D machine control systems laser leveling and grading mobile mapping 3D scanning drone technology GPS systems Total stations Topcon Leica Trimble Komatsu Caterpillar Volvo Vogele Wirtgen Doosan Hyundai Gomaco Power curbers Ammann Sitech Topcon mmGPS 3DMC smoothride paving grading dozer excavator grader paver ICE institute of civil engineers Dubai Middle East UAE Saudi Arabia Egypt Qatar Oman Bahrain Kuwait Jordan Bentley Autodesk Alaa AbouElenin 3D systems 3D technology Geospatial GIS systems CORS station reference stations geopositioning
https://www.youtube.com/watch?v=3Khchk678os
03_computational_design_digital_fabrication_intro to digitalfabrication_42sli...Ayele Bedada
Digital fabrication has enabled new architectural designs through computational design and custom fabrication. It integrates the design and manufacturing processes using CAD/CAM software and computer-controlled machines. Notable examples include Gehry Partners projects like the Disney Concert Hall, where complex geometries were modeled in CATIA and fabricated through CNC machines. This blurred the lines between design, prototyping, and construction.
Bright Machines provides AI-powered software solutions and robotic systems to automate and optimize manufacturing processes. Their approach involves developing software-defined manufacturing technologies that can be easily replicated, reconfigured and scaled globally. This enables faster deployment cycles, lower capital costs, and greater flexibility compared to traditional automation solutions.
03 computational design and digital fabrication intro to digital fabricationAyele Bedada
Digital fabrication has enabled new levels of design innovation through tighter integration of the design and manufacturing processes. CAD/CAM software allows designs to be directly fabricated using computer-controlled machines. Notable examples include Gehry Partners' use of digital techniques starting in 1989 for complex building skins. This blurred the lines between design prototyping and final construction. Other architects are now adopting similar integrated digital project delivery methods for complex buildings.
Over the past few years we have witnessed how the Cloud technologies have rapidly evolved and many companies have transformed their business towards global, value-driven business in the Cloud. Many services have found a place in the Cloud and numerous new innovations currently exist and will continue to be based on the Cloud technologies. At the same time, the transformation from the traditional approaches towards Cloud-based business has resulted in major changes in ICT companies.
DIGILE’s Cloud Software Program (CSW) was initiated in 2010. CSW is the largest collaborative program in the field of ICT in Finland. The four-year program includes several partners from Finnish industry and research organisations. VTT Technical Research Centre of Finland has been one of the main research partners of the program. VTT’s researchers have been working in a number of industry-driven business cases in collaboration with the companies and academic partners. The research cases have been challenging and have required a solid understanding of software business, processes, tools and methods from a variety of viewpoints.
The Cloud Software consortia has achieved great results and generated real business value for many companies. Some of the examples and highlights are presented in this book.
Industrial IoT and the emergence of Edge Computing Navigating the Technologic...Roberto Siagri
Industrial IoT and the emergence of Edge Computing
In 3 sentences:
Roberto Siagri discusses the trends of industrial IoT, edge computing, and increasing data volumes. Siagri outlines Eurotech's experience in embedded systems and vision for addressing the growing software complexity challenges through their edge computing solutions. Their approach focuses on distributed, containerized architectures to enable industrial IoT applications at the edge.
This document discusses how Docker is changing IT infrastructure and processes. It notes that containers represent the next major infrastructure shift, following shifts from mainframe to PC, bare metal to virtualization, and data centers to cloud. Containers can help reduce complexity compared to traditional infrastructure by allowing applications to run consistently across various environments. The document argues that Docker can help developers build, test, and deploy applications faster and help organizations innovate more by reducing costs spent on infrastructure maintenance. It provides examples of large companies that have adopted Docker Enterprise Edition and realized benefits like increased development productivity and reduced infrastructure costs.
Ayush Tiwari [PTC] | Unlock IoT Value with PTC’s ThingWorx Platform & InfluxD...InfluxData
PTC enables global manufacturers to realize double-digit impact with software solutions that enable them to accelerate product and service innovation, improve operational efficiency and increase workforce productivity. For developing IIoT solutions, PTC has partnered with InfluxData to manage time series data at scale. With PTC’s ThingWorx platform capabilities to rapidly build IIoT applications coupled with InfluxData’s leading time series data storage platform, customers are destined on a path to success in their digital transformation journey. Learn how selecting the ThingWorx solution and InfluxDB will unlock your IoT value.
04 computational design and digital fabrication intro to digital fabricationAyele Bedada
Digital fabrication has led to architectural innovation by allowing designs to be precisely translated from virtual models to physical buildings. It integrates the design and manufacturing processes using computer-controlled machines. Pioneers like Gehry Partners have exploited this to construct uniquely shaped buildings that were previously unbuildable. Digital fabrication tools include laser cutters, CNC mills, 3D printers, and large-scale robotic fabricators, integrating computational design with on-site construction.
04_computational_design_digital_fabrication_intro to digitalfabrication_32sli...Ayele Bedada
Digital fabrication has enabled greater innovation in architectural design by narrowing the gap between virtual models and physical buildings. It integrates the design and manufacturing processes using computer-controlled machines. Notable examples include Gehry Partners using CAD/CAM systems to construct complex geometries for buildings like the Disney Concert Hall. Digital fabrication allows designers to experiment more and control the construction process.
National Instruments' cofounder reflects on 40 years in test and measurement and discusses the future of the industry. Key points:
- NI helped transition the industry from hardware-focused to software-centric, with tools like LabVIEW and the philosophy that "the software is the instrument."
- Moore's Law and parallel computing allowed NI to leverage advances in hardware to continually improve software tools and deliver more value.
- Emerging technologies like IoT, wireless, and data analytics will further drive the industry, and NI is well-positioned with its software-centric approach and ecosystem of partners.
The document discusses modernizing applications and software development. It talks about moving from traditional client-server models to modern architectures like REST APIs and single page applications. It also discusses using modern technologies like JavaScript frameworks, responsive design, and NoSQL databases. The document advocates for continuous modernization to take advantage of new capabilities and reduce technical debt over time.
Many organizations are now investing in the development of web interfaces for their existing (and new) Notes/Domino applications. Now is the perfect time to start paying down on the technical debt we have accumulated to ensure that we don’t pass on an unsustainable software development deficit to those that will follow. With this presentation we will challenge the notion that trickle down development based on XPages is the next logical step in that evolution. While XPages still has a place in the world of modern Domino development we will explore new approaches and alternative technologies that have the potential to deliver a brighter prosperous.
Presentation: Engage.ug March 2015 by Peter Presnell
Many organizations are now investing in the development of web interfaces for their existing (and new) Notes/Domino applications. Now is the perfect time to start paying down on the technical debt we have accumulated to ensure that we don’t pass on an unsustainable software development deficit to those that will follow. With this presentation we will challenge the notion that trickle down development based on XPages is the next logical step in that evolution. While XPages still has a place in the world of modern Domino development we will explore new approaches and alternative technologies that have the potential to deliver a brighter prosperous.