This document provides an overview of key concepts in Internet of Things (IoT) including applications, devices, sensors, networks, protocols, challenges, and analytics. It describes common IoT applications, hardware components like microcontrollers and single-board computers, sensors and actuators, network topologies and protocols, security and design challenges, and approaches to managing and analyzing IoT data at large scales.
This document discusses Internet of Things (IoT) concepts including definitions and frameworks. It describes IoT as physical objects communicating over the internet using sensors, controllers and connectivity. A conceptual framework outlines data flow from sensor collection to analysis across six levels. Examples like a smart umbrella are provided. Reference architectures like Cisco's seven-layer model and Oracle's IoT architecture are examined, outlining their approaches to device, network and application functions in IoT. The document aims to provide an overview of key IoT concepts, frameworks and architectural views.
IoT and connected devices: an overviewPascal Bodin
This is the presentation I use as a support to my 9 hour-long talk to postgraduate students of a French Telecom and Electronics Master. The idea is to provide them with a broad view, including some non-technical domains.
Sensor devices and connected "Things" are becoming more widely available for both personal and business use, allowing various devices and infrastructure to be interconnected in complex networks. This brings opportunities for technology trends around Internet of Things to impact many areas of life, with applications already emerging in transportation, healthcare, security, and daily activities. Key enabling technologies include RFID, WiFi, barcodes, ZigBee, and sensors in smartphones. The future of IoT is expected to include worldwide sensor networks, expanded home automation and monitoring of daily life, improved logistics and shipping tracking, advanced healthcare applications, though the space remains unpredictable.
Word es un software que permite crear documentos profesionales utilizando texto, imágenes y formatos. Un monitor muestra los resultados de una computadora, un teclado envía información a través de teclas, e una impresora produce documentos en papel utilizando tinta o láser. Un mouse permite señalar e ingresar información a través de movimiento y clics, mientras que parlantes convierten señales eléctricas en sonido.
IEEE Radio & Wireless Week IoT Powered by Wireless PresentationMark Goldstein
Mark Goldstein, President of International Research Center (http://www.researchedge.com/) presented on the next Internet wave, how the Internet of Things (IoT), will connect tens of billions of new sensors and devices in the coming years driving sustainability while transforming home, business, government, industrial, medical, transportation, and other complex ecosystems. The presentation examined how IoT will be implemented and monetized across a various application spaces, creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s evolving wireless protocols, their pro and cons, and deployment prospects including the impact of 5G, as well as roadblocks and operational challenges, emerging standards and protocols, gateways and ecosystem integration, big data strategies, and analytic opportunities.
The document discusses creating the world's first open programmable city by building a research network in Bristol, UK integrating optical, wireless, IoT, and computing technologies. It will provide an experimental platform and utility called "City Experimentation as a Service". The network will support digital innovation and include an SDN-enabled optical network, wireless network, IoT sensors, and cloud infrastructure. It aims to be technology agnostic and provide network slicing to share resources among users through network virtualization. This will create an open testbed for diverse infrastructure, service, and application requirements.
B.E-ECE-FT-R 2021-Curriculum and Syllabus-2.pdfRamachandranG24
This document outlines an Internet of Things course for electronics. The course aims to impart knowledge about IoT, including its value chain structure, application areas, and technologies. Students will learn about IoT sensors and technological challenges, market forecasts, and how to prepare projects using Raspberry Pi. The course objectives are to explain IoT concepts, sensors, design technological sensors and applications, and advanced IoT topics. The syllabus covers introduction to IoT, IoT and M2M, cloud offerings, development examples, and preparing sensor and actuator projects with Raspberry Pi.
This document provides an overview of key concepts in Internet of Things (IoT) including applications, devices, sensors, networks, protocols, challenges, and analytics. It describes common IoT applications, hardware components like microcontrollers and single-board computers, sensors and actuators, network topologies and protocols, security and design challenges, and approaches to managing and analyzing IoT data at large scales.
This document discusses Internet of Things (IoT) concepts including definitions and frameworks. It describes IoT as physical objects communicating over the internet using sensors, controllers and connectivity. A conceptual framework outlines data flow from sensor collection to analysis across six levels. Examples like a smart umbrella are provided. Reference architectures like Cisco's seven-layer model and Oracle's IoT architecture are examined, outlining their approaches to device, network and application functions in IoT. The document aims to provide an overview of key IoT concepts, frameworks and architectural views.
IoT and connected devices: an overviewPascal Bodin
This is the presentation I use as a support to my 9 hour-long talk to postgraduate students of a French Telecom and Electronics Master. The idea is to provide them with a broad view, including some non-technical domains.
Sensor devices and connected "Things" are becoming more widely available for both personal and business use, allowing various devices and infrastructure to be interconnected in complex networks. This brings opportunities for technology trends around Internet of Things to impact many areas of life, with applications already emerging in transportation, healthcare, security, and daily activities. Key enabling technologies include RFID, WiFi, barcodes, ZigBee, and sensors in smartphones. The future of IoT is expected to include worldwide sensor networks, expanded home automation and monitoring of daily life, improved logistics and shipping tracking, advanced healthcare applications, though the space remains unpredictable.
Word es un software que permite crear documentos profesionales utilizando texto, imágenes y formatos. Un monitor muestra los resultados de una computadora, un teclado envía información a través de teclas, e una impresora produce documentos en papel utilizando tinta o láser. Un mouse permite señalar e ingresar información a través de movimiento y clics, mientras que parlantes convierten señales eléctricas en sonido.
IEEE Radio & Wireless Week IoT Powered by Wireless PresentationMark Goldstein
Mark Goldstein, President of International Research Center (http://www.researchedge.com/) presented on the next Internet wave, how the Internet of Things (IoT), will connect tens of billions of new sensors and devices in the coming years driving sustainability while transforming home, business, government, industrial, medical, transportation, and other complex ecosystems. The presentation examined how IoT will be implemented and monetized across a various application spaces, creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s evolving wireless protocols, their pro and cons, and deployment prospects including the impact of 5G, as well as roadblocks and operational challenges, emerging standards and protocols, gateways and ecosystem integration, big data strategies, and analytic opportunities.
The document discusses creating the world's first open programmable city by building a research network in Bristol, UK integrating optical, wireless, IoT, and computing technologies. It will provide an experimental platform and utility called "City Experimentation as a Service". The network will support digital innovation and include an SDN-enabled optical network, wireless network, IoT sensors, and cloud infrastructure. It aims to be technology agnostic and provide network slicing to share resources among users through network virtualization. This will create an open testbed for diverse infrastructure, service, and application requirements.
B.E-ECE-FT-R 2021-Curriculum and Syllabus-2.pdfRamachandranG24
This document outlines an Internet of Things course for electronics. The course aims to impart knowledge about IoT, including its value chain structure, application areas, and technologies. Students will learn about IoT sensors and technological challenges, market forecasts, and how to prepare projects using Raspberry Pi. The course objectives are to explain IoT concepts, sensors, design technological sensors and applications, and advanced IoT topics. The syllabus covers introduction to IoT, IoT and M2M, cloud offerings, development examples, and preparing sensor and actuator projects with Raspberry Pi.
Mark Goldstein, President of International Research Center gave the opening keynote address “Internet of Things – Transformative Megatrends for Sustainability” to the IEEE Conference on Technologies for Sustainability (IEEE SusTech, http://sites.ieee.org/sustech/) on October 10, 2016 in Phoenix, AZ. He explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years driving sustainability while transforming home, business, government, industrial, medical, transportation, and other complex ecosystems. This deck examines how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities.
The document discusses emerging trends in computer engineering, specifically focusing on the Internet of Things (IoT). It defines embedded systems and their basic components. It then discusses IoT in depth, including its characteristics, enabling technologies, communication models, protocols, issues, and applications in various domains. The document also discusses embedded processors, cloud computing, and big data analytics as relevant technologies in computer engineering.
The document compares options for embedded computing hardware components for an IoT smart power socket product. It evaluates the ATmega328P microcontroller with CC3100 WiFi module, Electric Imp imp002 board, and ESP8266 WiFi SoC. The ATmega328P/CC3100 combination is recommended due to flexibility, support for customization, and reliability needed to control home appliances remotely. Prototyping is needed to address design challenges like EMI from relay switching within the small form factor.
This document provides an introduction to Internet of Things (IoT) including its characteristics, physical design, logical design, enabling technologies, and communication aspects. It describes that IoT allows physical objects to be connected via sensors and software. Key characteristics include being dynamic, self-configuring, using interoperable protocols, having unique identities, and being integrated into information networks. The physical design involves things/devices that sense and actuate, and communication protocols. The logical design consists of functional blocks for devices, communication, services, management, security, and applications. Communication models include request-response, publish-subscribe, push-pull, and exclusive-pair. Enabling technologies that help realize IoT include wireless sensor networks, cloud computing
The document discusses definitions of the Internet of Things (IoT). It provides several definitions from various organizations that describe the IoT as connecting physical objects through standard internet protocols and allowing them to generate, exchange and consume data. The document also discusses the evolution of the IoT through different waves, starting with connecting PCs, then people through mobile/cloud, and the current wave of connecting everything through ubiquitous embedded systems like sensors. Finally, the document outlines some of the key enabling technologies and standards that help make the IoT possible, such as 6LoWPAN, CoAP and IEEE protocols.
Advanced view of atmega microcontroller projects list at mega32 avrWiseNaeem
Most of the electronics geeks are asking the whole list of Atmega AVR projects PDF here we will share list every month as our projects are being updated on daily basis. PDF is a good source to work offline. We will offer direct PDF file download link with info of its release date , number of projects.
EU-IoT Training Workshops Series: AIoT and Edge Machine Learning 2021_Jens Ha...VEDLIoT Project
IoT - Accelerated Deep Learning for Cognitive Edge Computing, Jens Hagemeyer, EU-IoT Training Workshops Series – “AIoT and Edge Machine Learning”, May 2021
SysML for Modeling Co-Simulation Orchestration over FMI, INTO-CPS ApproachAlessandra Bagnato
1) The document discusses SysML modeling of co-simulation orchestration over the Functional Mockup Interface (FMI) as part of the INTO-CPS project.
2) The INTO-CPS project aims to build an integrated model-based design toolchain for cyber-physical systems covering the full development lifecycle.
3) Modelio is a UML modeling tool that provides SysML diagrams and modules for modeling CPS within the INTO-CPS framework.
Design & Implementation Of Fault Identification In Underground Cables Using IOTIRJET Journal
This document describes a project to identify faults in underground cables using IoT. The system uses Ohm's law to determine the distance of a fault by measuring changes in voltage across series resistors in the cable that vary with distance. A microcontroller interfaces with an analog to digital converter to convert voltage measurements to distance readings in kilometers. When a fault occurs, the location is displayed on an LCD screen and sent over the internet via GSM to a website. The system aims to easily locate faults for repair. It was tested accurately identifying faults placed at known distances in a cable model.
Smart Surveillance Bot with Low Power MCUIRJET Journal
This document describes the design of a low-power, wirelessly controlled surveillance robot. The robot uses a CC3200 SimpleLink WiFi microcontroller and integrates an onboard video camera, ultrasonic sensor, Bluetooth module, GPS, and other components. The robot is intended to transmit real-time video data to a controller to monitor hard to access areas. The design aims to create an affordable and efficient robotic system for surveillance applications using low power consumption. Future extensions could include sensors for mine detection or fire detection.
IEEE CS Phoenix - Internet of Things Innovations & Megatrends UpdateMark Goldstein
Mark Goldstein, President of International Research Center explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years. Waves of change will roll through home, business, government, industrial, medical, transportation, and other complex ecosystems. Mark examined how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities in this presentation.
- Embedded systems are specialized computer systems that are part of larger machines and devices to control them. They are commonly microcontroller-based boards integrated with the device's development. Examples include appliances, watches, vehicles.
- The document discusses various electrical, biomedical, VLSI, networking, web application, wireless, Android, .NET, and robotics engineering projects for students. It provides examples of projects involving power factor correction, high voltage conversion, motor control, medical devices, microchip design, network simulation, and autonomous robots.
- The goal is to provide real-world engineering project ideas across different domains to help students with their academic work and gain industry-relevant skills.
Xprize Think Tank Phoenix IoT Presentation 4/18/16Mark Goldstein
Mark Goldstein, President of International Research Center explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years with the Xprize Think Tank Phoenix Chapter (http://www.meetup.com/xprize-think-tank-phoenix/) on 4/18/16. Waves of change will roll through home, business, government, industrial, medical, transportation, and other complex ecosystems. This deck examines how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities.
Note that this presentation is fresher though briefer than the one to the IEEE Computer Society Phoenix from 12/15 to be found at http://www.slideshare.net/markgirc/ieee-cs-phoenix-internet-of-things-innovations-megatrends-12215. This one stays at a somewhat higher level and includes newer material, but the other dives deeper into available devices and standards. Check them both out.
VEDLIoT – A heterogeneous hardware platform for next-gen AIoT applications, Jens Hagemeyer, EU-IoT Training Session on “Machine Learning at the Edge and the FarEdge”, IoT Week (online event), August 2021
By Def: The Internet of Things (IoT) is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers (UIDs) and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction. Dive in to know more...
INTO-CPS: An integrated “tool chain” for comprehensive Model-Based Design of ...Alessandra Bagnato
INTO-CPS Project: An integrated “tool chain” for comprehensive Model-Based Design of Cyber-Physical Systems
Paris Open Source Summit, POSS 2015
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IEEE Computer Society Phoenix Chapter - Internet of Things Innovations & Mega...Mark Goldstein
Mark Goldstein, President of International Research Center delivered his annual technology deep dive, this year into the Internet of Things Innovations & Megatrends to the IEEE Computer Society Phoenix Chapter (http://ewh.ieee.org/r6/phoenix/compsociety/) exploring the emergent Internet wave, the Internet of Things (IoT), on track to connect tens of billions of new sensors and devices in the coming years. Waves of change are rolling through home, business, government, industrial, medical, transportation, and other complex ecosystems. He examined how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering as myriad wireless technologies will connect smart spaces at home, at work, and in public space including autonomous transportation accompanied by new privacy and security risks. View to explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities bringing you the insight and strategies to leverage emerging IoT opportunities.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a network of physical objects embedded with software and sensors that allows them to connect and exchange data. Examples of IoT applications are given such as smart homes, healthcare devices, and mobile phones. The need for IoT is discussed in terms of connecting everyday objects to share data with minimal human intervention. An overview of the evolution and growth of IoT is provided from the 1970s to present day. Key characteristics and architectural models of IoT systems are described. Popular technologies that power IoT such as hardware, communication protocols, and cloud platforms are outlined. Development tools for building IoT solutions like Arduino, Raspberry Pi, and Eclipse
Road to Republic of IoT - IoT Technologies & Machine LearningAndri Yadi
Yep, should have uploaded this on July 2017. To promote Republic of IoT (RIoT) hackathon, we do roadshow to few cities in Indonesia and this time in Semarang city. Here, I talked about technologies will be used during hackathon, especially LoRa, ESP32, and machine learning.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
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Mark Goldstein, President of International Research Center gave the opening keynote address “Internet of Things – Transformative Megatrends for Sustainability” to the IEEE Conference on Technologies for Sustainability (IEEE SusTech, http://sites.ieee.org/sustech/) on October 10, 2016 in Phoenix, AZ. He explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years driving sustainability while transforming home, business, government, industrial, medical, transportation, and other complex ecosystems. This deck examines how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities.
The document discusses emerging trends in computer engineering, specifically focusing on the Internet of Things (IoT). It defines embedded systems and their basic components. It then discusses IoT in depth, including its characteristics, enabling technologies, communication models, protocols, issues, and applications in various domains. The document also discusses embedded processors, cloud computing, and big data analytics as relevant technologies in computer engineering.
The document compares options for embedded computing hardware components for an IoT smart power socket product. It evaluates the ATmega328P microcontroller with CC3100 WiFi module, Electric Imp imp002 board, and ESP8266 WiFi SoC. The ATmega328P/CC3100 combination is recommended due to flexibility, support for customization, and reliability needed to control home appliances remotely. Prototyping is needed to address design challenges like EMI from relay switching within the small form factor.
This document provides an introduction to Internet of Things (IoT) including its characteristics, physical design, logical design, enabling technologies, and communication aspects. It describes that IoT allows physical objects to be connected via sensors and software. Key characteristics include being dynamic, self-configuring, using interoperable protocols, having unique identities, and being integrated into information networks. The physical design involves things/devices that sense and actuate, and communication protocols. The logical design consists of functional blocks for devices, communication, services, management, security, and applications. Communication models include request-response, publish-subscribe, push-pull, and exclusive-pair. Enabling technologies that help realize IoT include wireless sensor networks, cloud computing
The document discusses definitions of the Internet of Things (IoT). It provides several definitions from various organizations that describe the IoT as connecting physical objects through standard internet protocols and allowing them to generate, exchange and consume data. The document also discusses the evolution of the IoT through different waves, starting with connecting PCs, then people through mobile/cloud, and the current wave of connecting everything through ubiquitous embedded systems like sensors. Finally, the document outlines some of the key enabling technologies and standards that help make the IoT possible, such as 6LoWPAN, CoAP and IEEE protocols.
Advanced view of atmega microcontroller projects list at mega32 avrWiseNaeem
Most of the electronics geeks are asking the whole list of Atmega AVR projects PDF here we will share list every month as our projects are being updated on daily basis. PDF is a good source to work offline. We will offer direct PDF file download link with info of its release date , number of projects.
EU-IoT Training Workshops Series: AIoT and Edge Machine Learning 2021_Jens Ha...VEDLIoT Project
IoT - Accelerated Deep Learning for Cognitive Edge Computing, Jens Hagemeyer, EU-IoT Training Workshops Series – “AIoT and Edge Machine Learning”, May 2021
SysML for Modeling Co-Simulation Orchestration over FMI, INTO-CPS ApproachAlessandra Bagnato
1) The document discusses SysML modeling of co-simulation orchestration over the Functional Mockup Interface (FMI) as part of the INTO-CPS project.
2) The INTO-CPS project aims to build an integrated model-based design toolchain for cyber-physical systems covering the full development lifecycle.
3) Modelio is a UML modeling tool that provides SysML diagrams and modules for modeling CPS within the INTO-CPS framework.
Design & Implementation Of Fault Identification In Underground Cables Using IOTIRJET Journal
This document describes a project to identify faults in underground cables using IoT. The system uses Ohm's law to determine the distance of a fault by measuring changes in voltage across series resistors in the cable that vary with distance. A microcontroller interfaces with an analog to digital converter to convert voltage measurements to distance readings in kilometers. When a fault occurs, the location is displayed on an LCD screen and sent over the internet via GSM to a website. The system aims to easily locate faults for repair. It was tested accurately identifying faults placed at known distances in a cable model.
Smart Surveillance Bot with Low Power MCUIRJET Journal
This document describes the design of a low-power, wirelessly controlled surveillance robot. The robot uses a CC3200 SimpleLink WiFi microcontroller and integrates an onboard video camera, ultrasonic sensor, Bluetooth module, GPS, and other components. The robot is intended to transmit real-time video data to a controller to monitor hard to access areas. The design aims to create an affordable and efficient robotic system for surveillance applications using low power consumption. Future extensions could include sensors for mine detection or fire detection.
IEEE CS Phoenix - Internet of Things Innovations & Megatrends UpdateMark Goldstein
Mark Goldstein, President of International Research Center explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years. Waves of change will roll through home, business, government, industrial, medical, transportation, and other complex ecosystems. Mark examined how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities in this presentation.
- Embedded systems are specialized computer systems that are part of larger machines and devices to control them. They are commonly microcontroller-based boards integrated with the device's development. Examples include appliances, watches, vehicles.
- The document discusses various electrical, biomedical, VLSI, networking, web application, wireless, Android, .NET, and robotics engineering projects for students. It provides examples of projects involving power factor correction, high voltage conversion, motor control, medical devices, microchip design, network simulation, and autonomous robots.
- The goal is to provide real-world engineering project ideas across different domains to help students with their academic work and gain industry-relevant skills.
Xprize Think Tank Phoenix IoT Presentation 4/18/16Mark Goldstein
Mark Goldstein, President of International Research Center explored the next Internet wave, the Internet of Things (IoT), expected to connect tens of billions of new sensors and devices in the coming years with the Xprize Think Tank Phoenix Chapter (http://www.meetup.com/xprize-think-tank-phoenix/) on 4/18/16. Waves of change will roll through home, business, government, industrial, medical, transportation, and other complex ecosystems. This deck examines how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering, accompanied by new privacy and security risks. Explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities.
Note that this presentation is fresher though briefer than the one to the IEEE Computer Society Phoenix from 12/15 to be found at http://www.slideshare.net/markgirc/ieee-cs-phoenix-internet-of-things-innovations-megatrends-12215. This one stays at a somewhat higher level and includes newer material, but the other dives deeper into available devices and standards. Check them both out.
VEDLIoT – A heterogeneous hardware platform for next-gen AIoT applications, Jens Hagemeyer, EU-IoT Training Session on “Machine Learning at the Edge and the FarEdge”, IoT Week (online event), August 2021
By Def: The Internet of Things (IoT) is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers (UIDs) and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction. Dive in to know more...
INTO-CPS: An integrated “tool chain” for comprehensive Model-Based Design of ...Alessandra Bagnato
INTO-CPS Project: An integrated “tool chain” for comprehensive Model-Based Design of Cyber-Physical Systems
Paris Open Source Summit, POSS 2015
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IEEE Computer Society Phoenix Chapter - Internet of Things Innovations & Mega...Mark Goldstein
Mark Goldstein, President of International Research Center delivered his annual technology deep dive, this year into the Internet of Things Innovations & Megatrends to the IEEE Computer Society Phoenix Chapter (http://ewh.ieee.org/r6/phoenix/compsociety/) exploring the emergent Internet wave, the Internet of Things (IoT), on track to connect tens of billions of new sensors and devices in the coming years. Waves of change are rolling through home, business, government, industrial, medical, transportation, and other complex ecosystems. He examined how IoT will be implemented and monetized creating new business models from pervasive sensor deployments and data gathering as myriad wireless technologies will connect smart spaces at home, at work, and in public space including autonomous transportation accompanied by new privacy and security risks. View to explore IoT’s roadblocks and operational challenges, emerging standards and protocols, gateway and wireless integration, and big data strategies and opportunities bringing you the insight and strategies to leverage emerging IoT opportunities.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a network of physical objects embedded with software and sensors that allows them to connect and exchange data. Examples of IoT applications are given such as smart homes, healthcare devices, and mobile phones. The need for IoT is discussed in terms of connecting everyday objects to share data with minimal human intervention. An overview of the evolution and growth of IoT is provided from the 1970s to present day. Key characteristics and architectural models of IoT systems are described. Popular technologies that power IoT such as hardware, communication protocols, and cloud platforms are outlined. Development tools for building IoT solutions like Arduino, Raspberry Pi, and Eclipse
Road to Republic of IoT - IoT Technologies & Machine LearningAndri Yadi
Yep, should have uploaded this on July 2017. To promote Republic of IoT (RIoT) hackathon, we do roadshow to few cities in Indonesia and this time in Semarang city. Here, I talked about technologies will be used during hackathon, especially LoRa, ESP32, and machine learning.
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Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
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Presentation of the OECD Artificial Intelligence Review of Germany
Model-based Demonstrator for Smart and Safety Systems.
1. MODES3 - MODEL-BASED DEMONSTRATOR
FOR SMART AND SAFE SYSTEMS
ZSOLT MÁZLÓ
IOT DEVELOPER
2. About me
Software Engineer, BSc (2016)
IoT and HW/SW integration
Software developer and IoT enthusiast (IncQuery Labs)
www.linkedin.com/in/zsoltmazlo
3. IncQuery Labs
Our mission
„Cutting edge”
innovation
Open Source
Education
Software
development
and modeling
Customized
design and
development
tools
Critical
systems,
Internet of
Things
In figures
2013 –
22 R&D
engineers
7 PhD
Partners
4.
5. What is MoDeS3?
Goals
A technology demonstrator for
education
Playground for testing out IoT
technologies within the safety
critical domains
Connect two aspects:
Development methodologies
for
safety-critical systems
Internet-of-Things technology
stack
7. Engineer
Applications addressing
real-world / everyday
problems embedded in
a natural/human
environment:
Cities,
transportation
Energy grids,
buildings
Healthcare, sport
User
Okos otthon
Perspectives on IoT
8. The best of both worlds – Smart and Safe IoT
systems
Safety Critical Systems Internet of Things
Data
acqui-
sition
Commu-
nication
Analysi
s
Act
Combination of both worlds:
Development techniques used for
safety-critical systems
with technologies from Internet-of-Things
11. Demonstrator
11
Railway control
system
- Roco system for
controlling devices
on the railway
- Operate standard:
DCC
- Control message
protocol: XpressNet
Railway
control
system:
XpressNet
DCC
Source: https://www.dccconcepts.com/product/roco-10810-multimaus-control-system/
16. Demonstrator
16
Railway
control
system:
XpressNet
DCC
Occupanc
y sensing:
S88
6 units of
BeagleBo
ne Blacks:
Ethernet
Switch
Segments
Custom
cape for
BeagleBo
ne Black:
Expander
s
Segment
Actuator:
Stopping
trains on
segment
Turnout
Actuator:
Control
and sense
railway
switches
Turnout Actuator
- Expander for
BeagleBone cape
- Control one railway
switch on table
- Sensing the state of
switch
18. Distributed Safety Logic
18
Railway
control
system:
XpressNet
DCC
Occupanc
y sensing:
S88
6 units of
BeagleBo
ne Blacks:
Ethernet
Switch
Segments
Custom
cape for
BeagleBo
ne Black:
Expander
s
Segment
Actuator:
Stopping
trains on
segment
Turnout
Actuator:
Control
and sense
railway
switches
Distributed Safety LogicSW
Monitoring and Control SystemSW
HW
20. Monitoring and Control System
20
Railway
control
system:
XpressNet
DCC
Occupanc
y sensing:
S88
6 units of
BeagleBo
ne Blacks:
Ethernet
Switch
Segments
Custom
cape for
BeagleBo
ne Black:
Expander
s
Segment
Actuator:
Stopping
trains on
segment
Turnout
Actuator:
Control
and sense
railway
switches
Distributed Safety LogicSW
Monitoring and Control SystemSW
HW
21. Monitoring and Control System
21
Additional level of safety – high level
monitoring
Computer
vision
Camera subsystem
22. Monitoring and Control System
22
Additional level of safety – high level
monitoring
Computer
vision
Communicatio
n Monitoring
Complex Event Processing
https://www.eclipsecon.org/europe2015/session/iot-
supercharged-complex-event-processing-mqtt-eclipse-
technologies
23. Event Stream („live
model”)
Recognised event pattern
2 trains would collide
Reaction: stopping the trains
Complex event processing
Source: http://us.123rf.com/450wm/booblgum/booblgum1505/booblgum150500047/39735839-grey-
passenger-train-isolated-vector-illustration.jpg?ver=6
Event
Train 1
Segment 2
Event
Train 1
Stops
Event
Train 2
Segment 3
Event
Switch
Divergent
Segment 1 Segment 3
Event occured
Train 1 arrives on segment 2
Could not go further
Event occured
Train 2 arrives on segment 3
Free road, could go onwards
Event occured
Switch changed to divergent
„Typical” application
domains
• Log analysis
• Fraud detection
• Algorithmic trading
Technologies
• Microsoft, Oracle,
SAP
• Drools Fusion, Esper
Eclipse Open IoT:
VIATRA-CEP (EPL
Licence)
24. Monitoring and Control System
24
Additional level of safety – high level
monitoring
Computer
vision
Communicatio
n Monitoring
VEPL
VIATRA-CEP
Shut down the system in
case of dangerous
situation
Monitorin
g Logic
Execution
26. Education and research applications
26
Academic contributors
• Fault Tolerant Systems Research Group
• MTA-BME Research Group on Cyber-Physical
Systems
Courses
• Cyber-physical systems
• Model-based Systems Design
• System Modelling
• Formal methods
Student projects
• 2 MSc & 7 BSc students
27. Conclusions
Initial version is out
• MoDeS3
http://modes3.tumblr.com/
• Source GitHub repo
https://github.com/FTSRG/BME-MODES3
As a demonstrator your contributions (feedback,
forum posts, ideas, bugzillas, patches) are very
welcome!
• Where to go what do demonstrate?
• Any additional IoT inspired service?
I have just finished bacheler degree this year and now I work as an full-time software-developer at Inc.L.
Middle-sized company focusing on cutting edge technologies. As you can see, there is 22 R&D engineers working in this company and 7 of them have PhD degree so for me it’s a good place to learn and work.
Our partners mainly related to safety critical systems, like thales and embraer but also have a strong connection with the BUTE
We are really proud that we have just received the Rising Stars award from Deloitte a week ago.
Collaborative project with Budapest University of Technology and Economics, Ericcson, Quanopt and also with National Academy of Science
We can test how safety cricital requirements can be served by IoT technologies.
We have placed third in the 2016 Eclipse Open IoT Challenge out of 89 teams.
As you know, everybody talks about IoT, but it’s seems to me a big buzzword, and I wanted to see how many phrases there are about the same stuff, and as you can see, I found quite a lot
It seems that both microsoft and IBM focusing on the city as an important factor while Ericcson and the European Union is always talks about society.
In the US you guys prefer Cyber physical systems, however Germany are really focusing on Industry 4.0
If you have any more phrases about IoT, please, send me an email and I will put it on this slide.
I think there is two aspects of IoT and these aspects are mixed in the previously mentioned phrases:
The first one is about what is the goal using these technologies, user side, there are real-world problems in our environment, and how could we solve these problems
Second aspect is the engineering perspective,
which includes the fact that huge sets of sensors and actuators are communicating over network,
and huge amount of data are generated by these devices
so we need to focus on how could we analyse and process all of these data in an effective way.
So IoT is about Data Acq. And then communcation,
There should be an act based on the given data, but also the consequences of act
Satefy C. Development now are using model-based dev. Techniques, like early model-based validation, code and configuration generation, monitoring synthesis and so on.
Now I show you a video about the working state of the demonstrator. It was recorded several days ago, when we were demostrated it at EclipseCon Europe 2016.
As you can see there is a webcam over the table and we were streaming the state of the demonstrator.
Also there is a dashboard which collect the data of all sensors and display it in a web-based user interface.
One of my bosses were at the event and he brought a Leap Motion device with himself. We have established a connection between the event and with the office and he managed to control the trains with complex gestures recognised by our system.
As you may think it has a very complex hardware design which I want to show you.
First of all, the upper side of the table remained clean (by purpose), I wanted to hide every electronics, therefore all of them went below the table.
As you can see, there is a tons of wires and hardwares fixed to the table. We wanted to make an maintainable hardware design, and I think we have achieved this goal.
Our system based on several hardware components, like...
And now I want to intruduce shortly the main components of the hardware.
Standard comm. In model railway systems (sends messages to the decoders)
And we are managed to create a component which receives commands in our network (Ethernet) and translate them to XpressNet commands.
But railway system could not provide for use the data where the trains are, therefore we had to divide the whole layout into segments, and to get the information which segments are occupied by a train, we needed some COTS hardwares. We are using S88 protocol to collect this data and the collector algorithm is implemented on an Arduino device.
Also we have a distributed system of embedded microcomputers. We have choose the BeagleBone Black for this porpuse, and we have 6 of them.
The BeagleBone Black units could not powered by 12VDC only with 5V, so we had to design a custom capes for them. It has a power circuit to give a power source to the BeagleBone.
We have designed this cape also to be able to expand the functionality on the hardware level, so we have 8 expander slots with constist of 4 GPIO pins and different power sources (like 5V or 12V).
Also there is an I2C slot and an EEPROM slot for future usage.
One of the two expander which we have designed is the segment actuator. It goes directly onto the cape. With this expander the BeagleBone is capable of stopping trains on segments no matter what the control command is. For economical reasons we have designed it to control 2 segments but in an independent way.
The second expander which has developed is the turnout actuator. It controls one railway switch on table and also sensing the state of it. So if someone changes the switch manually we will sense it and we can notify the other components of the system about the change.
Based on these hardware elements we have created a complete platform, on which we have developed some software components.
And now lets talk about the safety logic
The safety logic were developed with model-driven techniques. Now we are using Yakindu StateChart tools, but previously we were used BridgePoint language, which is an Eclipse-based technology to describe systems.
With model driven dev. We can execute early model validations using viatra query and we could also verificate these models with formal methods based on the UPPAAL model checker.
After all of them we can garanatue if our model satesfies the safety critical requirements or not and if it does, then with...
Using code generator tools we are able to generate native code which could be deployed on the BeagleBone units
One of our main component is a monitoring and control system...
...which is a computer vision based on the open cv library and this is a parallel safety channel next to the distr. logic executed by the beaglebone units.
It’s using a camera subsystem on a raspberry pi
and with special markers we are able to locate the trains more precisely and even get the speed of them.
https://www.eclipsecon.org/europe2015/session/iot-supercharged-complex-event-processing-mqtt-eclipse-technologies
Thesee informations are processed in the computer vision module and sent to the monitoring component. It’s using a complex event processing technology, and if you are interested in this particular technology, please follow the URL as you can see.
But I want to show you the concept behind it.
Lets say that this our layout with 3 segments and one switch.
There are also sensors which are provides us events about like a segment occupied by an train and so on and these events could be serialized into an event stream.
Lets say that we want to avoid collisions on the track, therefore we are interested in complex events which are indicate a future collision if we are not intervene.
Also the complex events could be refined with time-window constraints.
Also important to mention that Complex event processing is not a novel thing, it has already been used in various domains like log analysis or algorithm trading, however it’s application
This close to hardware level sensor processing is a novelty. It provides you high level specification language directly on the sensor data thus easing the sensor-fusion.
VIATRA-CEP is able to achieve this and it is EPL Licence, so there is an opportunity to integrate into propriarty environment too and using it without any constraints.
With CEP the monitoring system could achieve higher functionality. We could define dangerous situations in a domain specific language called VEPL, where we could define what should we do if one of them are about to happen – like shutting down the system.
This is a collaboration between our company and the university. The F.T.S.R.G is working continously on this project and also there is a national academy-university association which are sponsoring this project, this is the Research Group on Cyber Physical systems.
It developed mainly by students.
Thnak you for your attention!
If you want to get familiar with the state of this demostrator you can check our tumblr blog or even check the source-code. This is an open-source project and we have a public github repository on the following link.
Your contributions with this project are very welcome! We are committed to the project and if there are any ideas we want to hear about them.
Thanks for kind attention, it was a great honor to be here and if you have any questions, you can reach me out in the following links.