This document discusses using the Data Distribution Service (DDS) and RTI Connext DDS for building scalable, distributed systems for the Industrial Internet of Things (IIoT). DDS provides data-centric publish-subscribe communication that supports real-time integration of sensors, controllers and applications. It enables seamless data sharing across networks, platforms and locations. RTI is a leading provider of DDS middleware and has experience integrating DDS into large industrial and military systems.
The document discusses the use of the Data Distribution Service (DDS) and DDS middleware to implement open architecture requirements for distributed systems. DDS provides a publish-subscribe communication model that loosely couples applications and supports interoperability, real-time performance, reliability, and flexibility to integrate new components. The presentation provides examples of how DDS has been used in defense and aerospace systems to meet open architecture mandates.
The document discusses RTI and its Data Distribution Service (DDS) middleware for building distributed industrial internet of things (IIoT) systems. RTI is a leader in DDS standards and its Connext DDS implementation, which supports real-time communication for distributed IIoT applications across industries. DDS provides peer-to-peer data distribution with quality of service guarantees to enable scalable, secure, and reliable data sharing for IIoT systems.
The document discusses four keys to securing distributed industrial internet of things (IIoT) systems: 1) using a decentralized architecture rather than a centralized one, 2) implementing access control, 3) not relying solely on TCP and transport layer security, and 4) ensuring interoperability through open architectures and standards. It provides examples of how RTI's Data Distribution Service approach addresses these keys and secures critical infrastructure like power grids.
Presented by: Rune Volden, R&D Manager, Ulstein Power & Control AS
This talk will focus on where we were last year, how we overcome challenges and what's coming up. The way our component suppliers have adapted to our system setup is quite amazing. This enables us to apply a clean architecture based on DDS, with clear responsibility in terms of liability issues. Redundancy in hardware solution and flexibility in size, realtime capability and scalability is changing the way we do system integration for present and future needs.
This document discusses how to reduce safety certification costs for unmanned aircraft systems using a certifiable version of the Data Distribution Service (DDS) middleware. It describes how DDS can provide open standards-based communication for UAS networks. The key points are that RTI has developed Connext DDS Cert, a small-footprint, deterministic implementation of DDS that is certifiable to DO-178C Level A. Its minimal lines of code and reusable certification evidence allow users to cut $2M or more from certification costs compared to traditional approaches.
On-Demand: http://ecast.opensystemsmedia.com/474
GE, Cisco, AT&T, Intel and IBM recently established the Industrial Internet Consortium (IIC) at the Object Management Group (OMG) standards body. OMG is the world's largest system software standards organization, responsible for the UML modeling language and DDS data-centric middleware standards. Attend this webinar and find out how DDS can drive the Industrial Internet. At the OMG, the IIC will focus on standards relevant to the Industrial Internet, the branch of the Internet of Things that enables intelligent distributed machines. The IIC will break down technology silos to improve integration of the physical and digital worlds. RTI, the market-leading DDS vendor, provides the key communications infrastructure that enables smart machines in the Industrial Internet. This webinar will review the technology and examine real-world use cases for RTI DDS in the Industrial Internet across several industries, including medical, energy, aviation and automotive.
Speaker: Dr. Stan Schneider, Chief Executive Officer, RTI
Stan Schneider is a recognized expert in the development and integration of distributed real-time systems. He founded RTI to develop productivity tools for the real-time marketplace. Under his guidance, RTI has grown from inception to a multinational business with offices throughout North America and Europe.
Stan completed his Ph.D. in Electrical Engineering and Computer Science at Stanford University. He holds a BS in Applied Mathematics (Summa Cum Laude) and an MS in Computer Engineering from the University of Michigan.
This document discusses how integrating time-sensitive networking (TSN) with a data-centric connectivity approach using the Data Distribution Service (DDS) can improve industrial control systems. TSN provides real-time and deterministic networking over Ethernet, while DDS enables loose coupling, plug-and-play integration, and data sharing through its publish-subscribe model. Together, TSN and DDS can address challenges with traditional connectivity approaches by leveraging commodity hardware, simplifying integration, and allowing for improved data usage. The document outlines relevant TSN standards and how DDS quality of service policies can map to TSN priorities to provide deterministic networking.
The document discusses autonomous vehicle design and RTI's expertise in autonomy. It begins by outlining the challenges of autonomous vehicle technical including rapid evolution, complex system integration, on/off vehicle communications, perception and sensing, decision making, safety certification, and software dominance in a mechanical world. It then describes RTI's experience in various industries and standards efforts. RTI is said to have deep expertise in autonomy from its founders' background and use of its middleware to power unmanned systems. The document discusses how RTI can help with autonomous vehicle development through ensuring data availability, guaranteeing real-time response, managing complex data flows and states, easing system integration, building in security, making deployments flexible, and easing safety
The document discusses the use of the Data Distribution Service (DDS) and DDS middleware to implement open architecture requirements for distributed systems. DDS provides a publish-subscribe communication model that loosely couples applications and supports interoperability, real-time performance, reliability, and flexibility to integrate new components. The presentation provides examples of how DDS has been used in defense and aerospace systems to meet open architecture mandates.
The document discusses RTI and its Data Distribution Service (DDS) middleware for building distributed industrial internet of things (IIoT) systems. RTI is a leader in DDS standards and its Connext DDS implementation, which supports real-time communication for distributed IIoT applications across industries. DDS provides peer-to-peer data distribution with quality of service guarantees to enable scalable, secure, and reliable data sharing for IIoT systems.
The document discusses four keys to securing distributed industrial internet of things (IIoT) systems: 1) using a decentralized architecture rather than a centralized one, 2) implementing access control, 3) not relying solely on TCP and transport layer security, and 4) ensuring interoperability through open architectures and standards. It provides examples of how RTI's Data Distribution Service approach addresses these keys and secures critical infrastructure like power grids.
Presented by: Rune Volden, R&D Manager, Ulstein Power & Control AS
This talk will focus on where we were last year, how we overcome challenges and what's coming up. The way our component suppliers have adapted to our system setup is quite amazing. This enables us to apply a clean architecture based on DDS, with clear responsibility in terms of liability issues. Redundancy in hardware solution and flexibility in size, realtime capability and scalability is changing the way we do system integration for present and future needs.
This document discusses how to reduce safety certification costs for unmanned aircraft systems using a certifiable version of the Data Distribution Service (DDS) middleware. It describes how DDS can provide open standards-based communication for UAS networks. The key points are that RTI has developed Connext DDS Cert, a small-footprint, deterministic implementation of DDS that is certifiable to DO-178C Level A. Its minimal lines of code and reusable certification evidence allow users to cut $2M or more from certification costs compared to traditional approaches.
On-Demand: http://ecast.opensystemsmedia.com/474
GE, Cisco, AT&T, Intel and IBM recently established the Industrial Internet Consortium (IIC) at the Object Management Group (OMG) standards body. OMG is the world's largest system software standards organization, responsible for the UML modeling language and DDS data-centric middleware standards. Attend this webinar and find out how DDS can drive the Industrial Internet. At the OMG, the IIC will focus on standards relevant to the Industrial Internet, the branch of the Internet of Things that enables intelligent distributed machines. The IIC will break down technology silos to improve integration of the physical and digital worlds. RTI, the market-leading DDS vendor, provides the key communications infrastructure that enables smart machines in the Industrial Internet. This webinar will review the technology and examine real-world use cases for RTI DDS in the Industrial Internet across several industries, including medical, energy, aviation and automotive.
Speaker: Dr. Stan Schneider, Chief Executive Officer, RTI
Stan Schneider is a recognized expert in the development and integration of distributed real-time systems. He founded RTI to develop productivity tools for the real-time marketplace. Under his guidance, RTI has grown from inception to a multinational business with offices throughout North America and Europe.
Stan completed his Ph.D. in Electrical Engineering and Computer Science at Stanford University. He holds a BS in Applied Mathematics (Summa Cum Laude) and an MS in Computer Engineering from the University of Michigan.
This document discusses how integrating time-sensitive networking (TSN) with a data-centric connectivity approach using the Data Distribution Service (DDS) can improve industrial control systems. TSN provides real-time and deterministic networking over Ethernet, while DDS enables loose coupling, plug-and-play integration, and data sharing through its publish-subscribe model. Together, TSN and DDS can address challenges with traditional connectivity approaches by leveraging commodity hardware, simplifying integration, and allowing for improved data usage. The document outlines relevant TSN standards and how DDS quality of service policies can map to TSN priorities to provide deterministic networking.
The document discusses autonomous vehicle design and RTI's expertise in autonomy. It begins by outlining the challenges of autonomous vehicle technical including rapid evolution, complex system integration, on/off vehicle communications, perception and sensing, decision making, safety certification, and software dominance in a mechanical world. It then describes RTI's experience in various industries and standards efforts. RTI is said to have deep expertise in autonomy from its founders' background and use of its middleware to power unmanned systems. The document discusses how RTI can help with autonomous vehicle development through ensuring data availability, guaranteeing real-time response, managing complex data flows and states, easing system integration, building in security, making deployments flexible, and easing safety
The document discusses RTI and its Data Distribution Service (DDS) middleware. DDS provides publish-subscribe communication that is decentralized, scalable, and supports real-time and mission-critical systems. It addresses challenges with traditional approaches that are point-to-point and have single points of failure. DDS is used widely in industries such as defense, automotive, and medical. The document also covers open architecture requirements and how DDS supports security features to address cyber threats.
This document discusses lessons learned from space rovers and surgical robots that can inform system architecture. It advocates for a common architecture across industries using the Data Distribution Service (DDS) standard. DDS provides a data-centric middleware that maintains distributed state and facilitates plug-and-play connectivity between devices and across networks. It ensures real-time communication with quality of service guarantees to support applications from robotics to healthcare. DDS has been adopted in over 1000 industrial IoT systems and several standards/consortia due to its ability to securely connect sensors to cloud with interoperability between vendors.
This document discusses cybersecurity considerations for industrial Internet of Things (IIoT) systems. It describes how IIoT systems are distributed across sensors, actuators and other devices with streaming data, analytics/control, and connectivity to IT systems and clouds. This distributed nature introduces potential vulnerabilities from threats. The document then introduces the Data Distribution Service (DDS) standard as a connectivity platform that can address challenges like security while supporting real-time and reliable data distribution. Key features of DDS like decentralization and publish/subscribe capabilities are described. Finally, the document outlines DDS security capabilities like authentication, access control, encryption and logging to secure IIoT systems from unauthorized access and tampering.
Embedded systems are becoming interconnected and accessible via the internet. Gartner Group estimates there will be nearly 26 billion devices that make up the Internet of Things by 2020. This results in a massive variety of connected devices with varying security, reliability, and authentication requirements. Cost sensitivity also figures into the equation. This mix of requirements and costs require IoT developers to identify sensor, processor, and software solutions that address the requirements and hit required price points. Join us as IoT solution experts discuss sensors, connectivity, processors, platforms, and software for IoT applications and overview applications of IoT in various markets.
Watch for free on-demand http://ecast.opensystemsmedia.com/511
Originally presented on April 11, 2017
Watch on-demand: https://event.on24.com/eventRegistration/EventLobbyServlet?target=reg20.jsp&referrer=&eventid=1383298&sessionid=1&key=96B34B2E00F5FAA33C2957FE29D84624®Tag=&sourcepage=register
Multiple protocols have been positioned as “the” application-layer messaging protocol for the Internet of Things (IoT) and Machine-to-Machine (M2M) communication. In fact, these protocols address different aspects of IoT messaging and are complementary more than competitive (other than for mindshare). This presentation compares two of these protocols, MQTT and DDS, and shows how they are designed and optimized for different communication requirements.
Original webcast aired September 25, 2014. Please visit this link to watch on-demand: http://ecast.opensystemsmedia.com/495
The exciting potential of the Industrial Internet of Things (IIoT) is to create bold new intelligent machines and vast distributed systems. The IIoT will change the world across many industries. These applications define the future: renewable energy, cars that drive themselves, planes that fly themselves, smart medical devices, and connected hospitals.
DDS is the standard designed for the Industrial Internet. RTI's Connext communications platform is the leading DDS implementation, proven on real systems representing the breadth of the IIoT.
This webinar will overview some of RTI's real-world applications in the Industrial Internet. Our 750+ projects include applications in Energy (Siemens Wind Power, Toronto Hydro microgrids), Medical (GE Healthcare, BK Medical ultrasound, Harvard-led device connectivity standard), Automotive (Audi, VW), Industrial (Schneider, Joy), and Transportation (Canadian air traffic control, VW, Audi).
Come see why the DDS standard is the communication standard for the Industrial Internet. Based on our leading product and architectural impact, RTI was recently named the #1 most influential company in the Industrial Internet of Things by Appinions as published in Forbes and Reuters.
Speaker: Stan Schneider, CEO of RTI, and a member of the Industrial Internet Steering Committee along with GE, Cisco, Intel, AT&T, IBM, Accenture, and Fujitsu.
This document discusses data centric safety and security for the industrial internet of things (IIoT). It highlights how the IIoT will be disruptive and transform industries. The real value of the IIoT is a common architecture that connects sensors to the cloud, allows for interoperability between vendors, and spans multiple industries. The document discusses the role of Real-Time Innovations (RTI) and their data distribution service (DDS) standard in developing a common architecture for the IIoT. It also outlines RTI's experience with over $1 trillion in IIoT designs and involvement in several standards and consortium efforts.
This document discusses approaches for achieving interoperability between coalition systems. It defines a system of systems as a collection of independent systems that pool resources to achieve greater functionality. Interoperability is identified as the key requirement for a system of systems. Different levels of interoperability are described from no interoperability to conceptual interoperability. The document advocates using a formal language and rigorous process for data modeling to define data in a system of systems. This would allow different systems to exchange data unambiguously and achieve semantic interoperability. It presents RTI's data-centric integration solution as an approach that provides technical, syntactic and semantic interoperability between legacy and new systems using common data definitions.
The document discusses a presentation given by Dr. Stan Schneider, CEO of RTI, and Dr. Rajive Joshi, Principal Solution Architect at RTI, on how the Industrial Internet Consortium's (IIC) Connectivity Framework guides selection of connectivity technologies for industrial internet of things (IIoT) systems. The presentation covered the goals of the IIC Connectivity Framework in providing guidance to practitioners on IIoT connectivity, the layers of the IIoT connectivity stack model, core connectivity standards, and a process for assessing and selecting the appropriate connectivity standard.
The document discusses RTI and its Data Distribution Service (DDS) middleware. DDS provides publish-subscribe communication that is decentralized, scalable, and supports real-time and mission-critical systems. It addresses challenges with traditional approaches that are point-to-point and have single points of failure. DDS is used widely in industries such as defense, automotive, and medical. The document also covers open architecture requirements and how DDS supports security features to address cyber threats.
Time Sensitive Networks: How changes to standard Ethernet enable convergence ...Erik van Hilten
Standard Ethernet continues to expand its range, functionality and applications with the IEEE open standard, Time Sensitive Networking (TSN). The capabilities of TSN provide the industrial community with the ability to use standard Ethernet to support highly reliable and precise synchronized networking for industrial control. The presentation provides an update on the roadmap for TSN and an explanation around ways in which TSN enables seamless convergence within control networks. TSN updates to standard Ethernet will meet industrial control and measurement applications' needs, and solve interoperability issues by incorporating new capabilities needed in distributed systems. This presentation was held at the Hannover Messe Industry 4.0 Forum by Intel's Neil Stroud and National Instruments' Erik van Hilten.
1. Connext DDS is a connectivity platform that uses publish/subscribe middleware to loosely couple systems and reduce lifecycle costs through interoperability.
2. It supports mission-critical real-time systems with low latency, high throughput, and resilience through features like redundant networks and failover.
3. Connext DDS has been proven in over 850 critical systems in aerospace, defense, transportation, energy and other industries.
TechTalk: Connext DDS 5.2 - Faster and Easier Development of Industrial Internet Systems and Applications
Watch on-demand: https://youtu.be/j1G0MHC0Vwc
Presented by: Dr.-Ing. Dipl.-Inform. Daniel Ewert, Head of Research Group "Engineering Cybernetics," Assoc. Insitute for Management Cybernetics e.V., RWTH Aachen University
The Ice moon Enceladus of planet Saturn holds vast amounts of liquid water beneath its solid ice shell which possibly contain simple extraterrestrial life. For further examination an intended space mission by Germany's national space program aims to take probes from subsurface water using an autonomous ice probe. In order to navigate to a designated goal position, this probe must be able to localize itself within the ice. This localization is achieved by utilizing a distributed network of autonomous pinger units (APUs) which serve as external reference for the ice probe. The talk focusses on the technical details and communication and control mechanisms for this network.
Cisco Connect Halifax 2018 Optimizing your client's wi-fi experienceCisco Canada
This document discusses techniques for optimizing a client's Wi-Fi experience, including improving channel efficiency, minimizing cell size, using band selection and load balancing, and leveraging standards like 802.11k/v/r to improve roaming. It also covers using the right antennas and Cisco's solutions for Wi-Fi assurance and analytics to gain visibility and automate remediation.
This document discusses the evolution of software defined networking (SDN) and application-centric infrastructure. It describes how SDN has progressed from early implementations using OpenFlow (SDN 1.0) to separating the control and data planes (SDN 2.0) to the current approach of an application-centric infrastructure with a centralized controller and policy-based automation (SDN 3.0). It emphasizes how the new approach simplifies infrastructure management, enables intelligent services, and provides dynamic security through a centralized control plane.
OPC UA Security: Native and Add-on Solutionsteam-WIBU
The Industrial Internet of Things has set the stage for the convergence of Operations Technology (OT) and Information Technology (IT), that is, the plant floor and the higher-level IT infrastructure. One of the many aspects of this transitional journey is represented by M2M communications.
OPC UA is a multi-platform, plug & play Information Exchange Standard for industrial smart automation and cloud networking. It standardizes communications within machines, between machines, and from machines to smart systems, securely networked with IoT architectures.
As a member of the OPC Foundation, Wibu-Systems has been an early adopter of the OPC UA standard in Industrie 4.0 projects like IUNO, the German national reference project for IT security in Industrie 4.0, S4SmartPro, the key finder prototype production line of SmartFactoryKL, and OpSit, the optimal use of smart items technologies in healthcare.
As recently pointed out in the Industrial Internet Security Framework as well, it is endpoints, i.e. the device or cloud-based components that have interfaces for network communication, that are particularly vulnerable in a world of cyber-physical systems connected to open networks. The Unified Automation ANSI C based and High Performance OPC UA SDKs, powered by CodeMeter Embedded, fully support the OPC UA defined Security Profiles and configurations and provide even stronger security for modern M2M communications. Secret information, like RSA private keys, certificates, and trust lists, is stored in a hardware secure element and protected from theft and tampering attacks. In a time when intellectual property is shifting in the value chain from hardware to software, manufacturers now also have new opportunities to capitalize on their software and offer feature-based, time-based, version-based, or pay-per-use models to scale up their offerings, expand their market share, and produce recurrent revenues.
In this presentation, we are going to navigate you through a journey of exploration that will touch upon:
* The elements of innovation in smart manufacturing
* The connection requirements for M2M in the IIoT age
* The building blocks of the OPC Unified Architecture
* Use cases that are accelerating the rise of Smart Factories
* The integration of CodeMeter in the OPC UA standard
* The OPC UA security extension for endpoints
Working with Windows, Linux, macOS, or Android? With minimal embedded controllers up to massive cloud infrastructures? OPC UA and CodeMeter are equally suited, scalable, and secure, and most of all integrated in a streamlined fashion to provide the ultimate technology in access control, authentication, and encryption.
Watch the webinar: https://youtu.be/r3CHB42OJ-o
El documento describe varios círculos de acordes en la guitarra, incluyendo el círculo de A, el círculo de B, el círculo de A#/Bb, y los círculos de C, D, E, F y G. Cada círculo presenta diferentes niveles de dificultad y es útil para fortalecer el uso de la cejilla y mejorar el control general de la guitarra.
The document discusses RTI and its Data Distribution Service (DDS) middleware. DDS provides publish-subscribe communication that is decentralized, scalable, and supports real-time and mission-critical systems. It addresses challenges with traditional approaches that are point-to-point and have single points of failure. DDS is used widely in industries such as defense, automotive, and medical. The document also covers open architecture requirements and how DDS supports security features to address cyber threats.
This document discusses lessons learned from space rovers and surgical robots that can inform system architecture. It advocates for a common architecture across industries using the Data Distribution Service (DDS) standard. DDS provides a data-centric middleware that maintains distributed state and facilitates plug-and-play connectivity between devices and across networks. It ensures real-time communication with quality of service guarantees to support applications from robotics to healthcare. DDS has been adopted in over 1000 industrial IoT systems and several standards/consortia due to its ability to securely connect sensors to cloud with interoperability between vendors.
This document discusses cybersecurity considerations for industrial Internet of Things (IIoT) systems. It describes how IIoT systems are distributed across sensors, actuators and other devices with streaming data, analytics/control, and connectivity to IT systems and clouds. This distributed nature introduces potential vulnerabilities from threats. The document then introduces the Data Distribution Service (DDS) standard as a connectivity platform that can address challenges like security while supporting real-time and reliable data distribution. Key features of DDS like decentralization and publish/subscribe capabilities are described. Finally, the document outlines DDS security capabilities like authentication, access control, encryption and logging to secure IIoT systems from unauthorized access and tampering.
Embedded systems are becoming interconnected and accessible via the internet. Gartner Group estimates there will be nearly 26 billion devices that make up the Internet of Things by 2020. This results in a massive variety of connected devices with varying security, reliability, and authentication requirements. Cost sensitivity also figures into the equation. This mix of requirements and costs require IoT developers to identify sensor, processor, and software solutions that address the requirements and hit required price points. Join us as IoT solution experts discuss sensors, connectivity, processors, platforms, and software for IoT applications and overview applications of IoT in various markets.
Watch for free on-demand http://ecast.opensystemsmedia.com/511
Originally presented on April 11, 2017
Watch on-demand: https://event.on24.com/eventRegistration/EventLobbyServlet?target=reg20.jsp&referrer=&eventid=1383298&sessionid=1&key=96B34B2E00F5FAA33C2957FE29D84624®Tag=&sourcepage=register
Multiple protocols have been positioned as “the” application-layer messaging protocol for the Internet of Things (IoT) and Machine-to-Machine (M2M) communication. In fact, these protocols address different aspects of IoT messaging and are complementary more than competitive (other than for mindshare). This presentation compares two of these protocols, MQTT and DDS, and shows how they are designed and optimized for different communication requirements.
Original webcast aired September 25, 2014. Please visit this link to watch on-demand: http://ecast.opensystemsmedia.com/495
The exciting potential of the Industrial Internet of Things (IIoT) is to create bold new intelligent machines and vast distributed systems. The IIoT will change the world across many industries. These applications define the future: renewable energy, cars that drive themselves, planes that fly themselves, smart medical devices, and connected hospitals.
DDS is the standard designed for the Industrial Internet. RTI's Connext communications platform is the leading DDS implementation, proven on real systems representing the breadth of the IIoT.
This webinar will overview some of RTI's real-world applications in the Industrial Internet. Our 750+ projects include applications in Energy (Siemens Wind Power, Toronto Hydro microgrids), Medical (GE Healthcare, BK Medical ultrasound, Harvard-led device connectivity standard), Automotive (Audi, VW), Industrial (Schneider, Joy), and Transportation (Canadian air traffic control, VW, Audi).
Come see why the DDS standard is the communication standard for the Industrial Internet. Based on our leading product and architectural impact, RTI was recently named the #1 most influential company in the Industrial Internet of Things by Appinions as published in Forbes and Reuters.
Speaker: Stan Schneider, CEO of RTI, and a member of the Industrial Internet Steering Committee along with GE, Cisco, Intel, AT&T, IBM, Accenture, and Fujitsu.
This document discusses data centric safety and security for the industrial internet of things (IIoT). It highlights how the IIoT will be disruptive and transform industries. The real value of the IIoT is a common architecture that connects sensors to the cloud, allows for interoperability between vendors, and spans multiple industries. The document discusses the role of Real-Time Innovations (RTI) and their data distribution service (DDS) standard in developing a common architecture for the IIoT. It also outlines RTI's experience with over $1 trillion in IIoT designs and involvement in several standards and consortium efforts.
This document discusses approaches for achieving interoperability between coalition systems. It defines a system of systems as a collection of independent systems that pool resources to achieve greater functionality. Interoperability is identified as the key requirement for a system of systems. Different levels of interoperability are described from no interoperability to conceptual interoperability. The document advocates using a formal language and rigorous process for data modeling to define data in a system of systems. This would allow different systems to exchange data unambiguously and achieve semantic interoperability. It presents RTI's data-centric integration solution as an approach that provides technical, syntactic and semantic interoperability between legacy and new systems using common data definitions.
The document discusses a presentation given by Dr. Stan Schneider, CEO of RTI, and Dr. Rajive Joshi, Principal Solution Architect at RTI, on how the Industrial Internet Consortium's (IIC) Connectivity Framework guides selection of connectivity technologies for industrial internet of things (IIoT) systems. The presentation covered the goals of the IIC Connectivity Framework in providing guidance to practitioners on IIoT connectivity, the layers of the IIoT connectivity stack model, core connectivity standards, and a process for assessing and selecting the appropriate connectivity standard.
The document discusses RTI and its Data Distribution Service (DDS) middleware. DDS provides publish-subscribe communication that is decentralized, scalable, and supports real-time and mission-critical systems. It addresses challenges with traditional approaches that are point-to-point and have single points of failure. DDS is used widely in industries such as defense, automotive, and medical. The document also covers open architecture requirements and how DDS supports security features to address cyber threats.
Time Sensitive Networks: How changes to standard Ethernet enable convergence ...Erik van Hilten
Standard Ethernet continues to expand its range, functionality and applications with the IEEE open standard, Time Sensitive Networking (TSN). The capabilities of TSN provide the industrial community with the ability to use standard Ethernet to support highly reliable and precise synchronized networking for industrial control. The presentation provides an update on the roadmap for TSN and an explanation around ways in which TSN enables seamless convergence within control networks. TSN updates to standard Ethernet will meet industrial control and measurement applications' needs, and solve interoperability issues by incorporating new capabilities needed in distributed systems. This presentation was held at the Hannover Messe Industry 4.0 Forum by Intel's Neil Stroud and National Instruments' Erik van Hilten.
1. Connext DDS is a connectivity platform that uses publish/subscribe middleware to loosely couple systems and reduce lifecycle costs through interoperability.
2. It supports mission-critical real-time systems with low latency, high throughput, and resilience through features like redundant networks and failover.
3. Connext DDS has been proven in over 850 critical systems in aerospace, defense, transportation, energy and other industries.
TechTalk: Connext DDS 5.2 - Faster and Easier Development of Industrial Internet Systems and Applications
Watch on-demand: https://youtu.be/j1G0MHC0Vwc
Presented by: Dr.-Ing. Dipl.-Inform. Daniel Ewert, Head of Research Group "Engineering Cybernetics," Assoc. Insitute for Management Cybernetics e.V., RWTH Aachen University
The Ice moon Enceladus of planet Saturn holds vast amounts of liquid water beneath its solid ice shell which possibly contain simple extraterrestrial life. For further examination an intended space mission by Germany's national space program aims to take probes from subsurface water using an autonomous ice probe. In order to navigate to a designated goal position, this probe must be able to localize itself within the ice. This localization is achieved by utilizing a distributed network of autonomous pinger units (APUs) which serve as external reference for the ice probe. The talk focusses on the technical details and communication and control mechanisms for this network.
Cisco Connect Halifax 2018 Optimizing your client's wi-fi experienceCisco Canada
This document discusses techniques for optimizing a client's Wi-Fi experience, including improving channel efficiency, minimizing cell size, using band selection and load balancing, and leveraging standards like 802.11k/v/r to improve roaming. It also covers using the right antennas and Cisco's solutions for Wi-Fi assurance and analytics to gain visibility and automate remediation.
This document discusses the evolution of software defined networking (SDN) and application-centric infrastructure. It describes how SDN has progressed from early implementations using OpenFlow (SDN 1.0) to separating the control and data planes (SDN 2.0) to the current approach of an application-centric infrastructure with a centralized controller and policy-based automation (SDN 3.0). It emphasizes how the new approach simplifies infrastructure management, enables intelligent services, and provides dynamic security through a centralized control plane.
OPC UA Security: Native and Add-on Solutionsteam-WIBU
The Industrial Internet of Things has set the stage for the convergence of Operations Technology (OT) and Information Technology (IT), that is, the plant floor and the higher-level IT infrastructure. One of the many aspects of this transitional journey is represented by M2M communications.
OPC UA is a multi-platform, plug & play Information Exchange Standard for industrial smart automation and cloud networking. It standardizes communications within machines, between machines, and from machines to smart systems, securely networked with IoT architectures.
As a member of the OPC Foundation, Wibu-Systems has been an early adopter of the OPC UA standard in Industrie 4.0 projects like IUNO, the German national reference project for IT security in Industrie 4.0, S4SmartPro, the key finder prototype production line of SmartFactoryKL, and OpSit, the optimal use of smart items technologies in healthcare.
As recently pointed out in the Industrial Internet Security Framework as well, it is endpoints, i.e. the device or cloud-based components that have interfaces for network communication, that are particularly vulnerable in a world of cyber-physical systems connected to open networks. The Unified Automation ANSI C based and High Performance OPC UA SDKs, powered by CodeMeter Embedded, fully support the OPC UA defined Security Profiles and configurations and provide even stronger security for modern M2M communications. Secret information, like RSA private keys, certificates, and trust lists, is stored in a hardware secure element and protected from theft and tampering attacks. In a time when intellectual property is shifting in the value chain from hardware to software, manufacturers now also have new opportunities to capitalize on their software and offer feature-based, time-based, version-based, or pay-per-use models to scale up their offerings, expand their market share, and produce recurrent revenues.
In this presentation, we are going to navigate you through a journey of exploration that will touch upon:
* The elements of innovation in smart manufacturing
* The connection requirements for M2M in the IIoT age
* The building blocks of the OPC Unified Architecture
* Use cases that are accelerating the rise of Smart Factories
* The integration of CodeMeter in the OPC UA standard
* The OPC UA security extension for endpoints
Working with Windows, Linux, macOS, or Android? With minimal embedded controllers up to massive cloud infrastructures? OPC UA and CodeMeter are equally suited, scalable, and secure, and most of all integrated in a streamlined fashion to provide the ultimate technology in access control, authentication, and encryption.
Watch the webinar: https://youtu.be/r3CHB42OJ-o
El documento describe varios círculos de acordes en la guitarra, incluyendo el círculo de A, el círculo de B, el círculo de A#/Bb, y los círculos de C, D, E, F y G. Cada círculo presenta diferentes niveles de dificultad y es útil para fortalecer el uso de la cejilla y mejorar el control general de la guitarra.
The 5th methodology: implementing a holistic approach to mobile researchMerlien Institute
The 5th methodology: implementing a holistic approach to mobile research
Jim Schwab - SVP, North America - OnePoint Surveys
Reviewing mobile market research within a holistic context. Discussing the channels of survey engagement that are optimal via mobile. Outlining the key success factors for navigating the wireless landscape.
El documento habla sobre el inicio de la temporada de preparación del Torneo de la Liga Helvética en Nueva Helvecia. También menciona una entrevista realizada a David Dovat, miembro del Club Arqueros del Sur de Nueva Helvecia, sobre la actividad de tiro con arco en la ciudad y el torneo nacional que se realizó recientemente. Además, resume brevemente un artículo sobre la historia de la orfebrería.
Finn y Jake viven en una ciudad donde nadie recicla. El Rey Hielo los castiga convirtiéndolos en personajes animados hasta que limpien la ciudad reciclando. Mientras recorren la ciudad ayudando a objetos como una botella, una libreta y una bolsa de plástico a llegar a sus contenedores de reciclaje, convencen a la Princesa Bultos y su amiga de la importancia de reciclar para mantener un planeta limpio. Al final, gracias a sus esfuerzos, la ciudad queda limpia y el Rey
Chalavipen Mashkarno es un movimiento mediador que ha estado trabajando desde 2005 en el Polígono Sur de Sevilla para promover la inclusión social. Ofrecen un taller de cocina solidaria para capacitar a mujeres en riesgo de exclusión como ayudantes de cocina, así como talleres de educación para la salud en colaboración con centros de salud locales. El objetivo es mejorar las habilidades laborales y la salud de las mujeres participantes.
The Canadian GIC market is valued at just under $900 billion in Q1 2009. Chartered banks hold the largest share at 67% of funds, while credit unions and trust companies hold 25% and 7% respectively. On average, GIC volumes have grown 5% per year. Individuals hold 57% of outstanding balances compared to 43% for businesses. Distribution is key to success in the GIC market, with large investment dealers and independent brokers driving most origination. Rates are generally not the main competitive driver, as customers prioritize insured status, brand, and advisor recommendations over rates. New entrants may consider differentiated strategies around distribution channels, product features, or rates/commissions.
Google Drive permite almacenar archivos en la nube para acceder a ellos desde cualquier lugar. Los usuarios pueden crear una cuenta de Google Drive, descargar la aplicación en dispositivos móviles y de escritorio, y subir archivos a la nube para sincronizarlos y compartirlos entre dispositivos.
This document discusses designing for gender in the future and highlights three key points:
1. Gender boundaries will breakthrough our conceptions of emotional roles and norms.
2. Gender identity will transform to be defined more by individual preferences than predetermined roles.
3. Gender complexity will become more normalized and accepted as a casual lifestyle choice rather than a binary concept.
The document advocates for designing without predefined gender assumptions and focusing on emotion-driven goals, outsourced interactions, and empathic design.
Este documento describe un proyecto educativo en el Colegio Miguel Antonio Caro que busca promover el cuidado del medio ambiente a través de salidas pedagógicas. El proyecto se enfoca en estudiar las aves de la región para crear conciencia sobre su importancia y las amenazas que enfrentan. Las salidas incluyen visitas a la vereda Cuchilla del Salado, el Jardín Botánico de la Universidad de Caldas y el Ecoparque los Yarumos. El proyecto espera que los estudiantes desarrollen conocimiento sobre
This document outlines a digital marketing campaign plan for a laundry company called Mr. Smart Wash. The plan's big idea is to encourage people to spend their time wisely by using Mr. Smart Wash's laundry services to save time. The campaign includes social media content about quality time and spending spare time wisely, competitions on Facebook and Twitter, a story video series on YouTube, and banner ads. The goal is to increase brand awareness and follower engagement over 12 months.
El documento analiza cómo las nuevas tecnologías y redes sociales afectan al turismo de los españoles, centrándose en las 5 etapas del viaje: soñar, reservar, planificar, experimentar y compartir. Se realizó una encuesta online a 405 internautas españoles que han comprado billetes o alojamiento online y usan redes sociales. Los resultados muestran que las ofertas de agencias de viajes online y comentarios de amigos y familiares influyen más en la elección del destino, mientras que durante la planificación se consulta
María Aminta Henrich Nonone es una artista plástica peruana con una amplia educación y experiencia. Ha estudiado biología, oceanografía y genética, y ha trabajado como profesora, traductora y gerente de ventas. Sus obras de arte se han exhibido en varias galerías y colecciones públicas en Alemania y Perú. Actualmente está trabajando en varios proyectos artísticos y de investigación relacionados con la cultura peruana.
Las transparencias se han utilizado tradicionalmente en la moda femenina, pero ahora están disponibles para todos los géneros. Los diseñadores ahora crean ropa transparente para hombres y mujeres por igual.
La Semana Vocacional busca ayudar a los estudiantes a descubrir cómo pueden encajar y ser felices mediante el uso de sus diferentes talentos y vocaciones para servir a los demás y a Jesús, quien desea su felicidad.
This document appears to contain random symbols and characters with no discernible meaning or message. It does not provide any clear essential information that can be summarized in 3 sentences or less.
Grupo Riceli es una inmobiliaria Administradora de propiedad horizontal, dentro de su portafolio de servicios ofrecemos: venta de inmuebles, vivienda, fincas y lotes, arrendamientos con póliza de seguros, créditos hipotecarios para compra de vivienda, cartera, otros inmuebles, mejoras y ampliaciones, avalúos y tramites ante la curaduría para obtener licencia de construcción.
This document summarizes a presentation about Internet of Things (IoT) protocols. It discusses how the IoT is projected to connect 100 billion objects by 2020 and defines the IoT according to different companies. It then analyzes common IoT protocols like AMQP, MQTT, XMPP, and DDS, explaining what types of applications each is best suited for. Finally, it discusses how to choose a protocol based on requirements like performance, connectivity, and use cases like smart grids, vehicles, healthcare and more.
Even though the U.S. Department of Defense budget is shrinking and the country's military footprint worldwide is receding the need for the warfighter to have accurate and actionable intelligence has never been more critical. Data from Intelligence, Surveillance, and Reconnaissance (C4ISR) systems such as radar, image processing payloads on Unmanned Aerial Vehicles, and more will be used and fused together to provide commanders with real-time situational awareness. Each system will also need to embrace open architectures and the latest commercial standards to meet the DoD's performance, size, and cost requirements. This e-cast will discuss how embedded defense suppliers are meeting these challenges.
Easing Integration of Large-Scale Real-Time Systems with DDSRick Warren
Webcast (sorry, audio not included) on system integration design patterns from July of 2010 pertaining mostly (but not exclusively) to Data-Distribution Service (DDS) technology.
The document compares OPC UA and DDS, two key protocols for industrial IoT. OPC UA is object-oriented and client-server, targeting simpler systems with device interchangeability needs. DDS is data-centric and peer-to-peer, more suitable for systems with primary software integration challenges. Both communities are working to ensure their technologies can work together, preserving investments as architectures evolve.
1) The document discusses using the Data Distribution Service (DDS) standard and Connext DDS middleware to develop mission-critical systems with Ada. DDS handles connectivity and allows applications to communicate in a loosely coupled publish-subscribe manner.
2) Developing applications directly with traditional inter-process communication approaches is expensive and ties applications to specific communication mechanisms. DDS simplifies application logic and reduces development and integration costs.
3) DDS supports real-time and safety-critical systems and has been used for systems like avionics and defense applications. It interfaces with Ada through code generation from IDL definitions.
Developer Day 2014 - 4 - wind river - iot business and technology trendsThibault Cantegrel
This document discusses trends in the Internet of Things (IoT) and the role of open standards. It provides an overview of Wind River, a company that provides software for IoT devices. Wind River discusses the convergence of IT and OT systems in IoT and the need for open standards to facilitate interoperability between systems. The document outlines Wind River's offerings, including its Intelligent Device Platform, and how it uses open-source components like Linux, Yocto Project, and Legato to provide a flexible solution for customers. Finally, it discusses some of the business benefits that open standards can provide, such as cost reduction, new revenue opportunities, and faster innovation.
Connectivité temps réel et bi-directionnelle pour solutions IOTSolace
The document discusses Solace and how it provides real-time bidirectional connectivity for IoT solutions. It outlines Solace's event mesh architecture, which provides uniform connectivity across IoT, edge, cloud and enterprise applications. This allows for massive scalability, security, and routing of data and commands between devices and applications. Use cases discussed include connected cars, smart cities, industrial IoT, and cloud-to-cloud scenarios.
This document discusses new approaches for machine-to-machine (M2M) and internet of things (IoT) projects in utilities and energy markets. It argues that current point solutions have increased costs due to lack of interoperability and inability to share resources. The document advocates thinking holistically about entire ecosystems rather than individual problems, and leveraging existing technology standards. It introduces Eurotech's approach of using integration platforms and device application frameworks to enable more efficient and flexible M2M/IoT systems.
Introduction to DDS: Context, Information Model, Security, and Applications.Gerardo Pardo-Castellote
Introduction to the Data-Distribution Service (DDS): Context and Applications.
This 50 minute presentation summarizes the main features of DDS including the information model, the type system, and security as well as how typical applications use DDS.
It was presented at the Canadian Government Information Day in Ottawa on September 2018.
There is also a video of this presentation at https://www.youtube.com/watch?v=6iICap5G7rw.
Introduction to Operational Technology 0.1Richard Hudson
The document discusses considerations for operational technology and open source as enablers for Internet of Things (IoT) interoperability. It addresses challenges in integrating operational technology (OT) due to siloed IT/OT activities and competing standards. Three key enablers for interoperability are identified: data models, application programming interfaces, and protocol stacks. Open source frameworks are presented as a solution for device integration through their design for interoperability. Examples of open source implementations that can enable OT across devices, networks, and cloud platforms are also provided.
Presentation to the Robotics Task Force of the Object Management Group (OMG) introducing the members to the Data Distribution Service (DDS), another OMG-standard technology.
Developing Interoperable Components for an Open IoT Foundation Eurotech
In this presentation Eurotech and Red Hat present Kapua, a modular cloud platform that provides management for Internet of Things (IoT) gateways and smart edge devices. It represents a key milestone towards the development of a truly open, end-to-end foundation for IoT and its ecosystem of partners and solutions. Kapua provides a core integration framework with services for device registry, data and device management, message routing, and applications.
Deploying Hyperscale SDN and NFV in Next-Generation Data CentersRadisys Corporation
Check out this presentation that Radisys' Bryan Sadowski, VP, Product Management, presented at SDN & OpenFlow World Forum 2016 in The Hague, Netherlands. This presentation explores the carrier-grade integrated hardware and software SDN/NFV solution Radisys offers to deploy into next-generation data centers.
The Internet revolutionized how people communicate, what they do, and how they work together. The revolution is not done. The next wave of the Internet will connect machines and devices together into functioning, intelligent systems. These interconnected devices, aka the Internet of Things (IoT), will link machines together with speeds, scales, and capabilities far beyond what people need or use. The IoT of intelligent connected devices will change the world, perhaps more profoundly than today's human-centric Internet.
However, figuring out where your application fits into the maze of technologies is truly confusing. This webinar will decode the machine-to-machine (M2M) technology jumble. When does DDS (Data Distribution Service) make sense? How does it compare to MQTT (Message Queue Telemetry Transport)? To the AMQP (Advance Message Queuing Protocol)? To the cloud? These technologies differ drastically; we'll provide a guide to help you navigate.
We will then explore some of the applications and reasons that high-performance integrated device systems are choosing DDS, the Object Management Group (OMG) standard for Data Distribution Service middleware. Attendees will learn why DDS is the only technology that delivers the flexibility, reliability, and speed necessary to build complex real-time applications. We will examine why military systems, wind-turbine farms, advanced medical systems, asset-tracking systems and automotive test and safety systems choose to base their designs on DDS.
Speaker: Dr. Stan Schneider, Chief Executive Officer
The document discusses how networks need to change to accommodate new demands like mobility, virtualization, and changing traffic patterns. It notes challenges around centralized management, flexibility, and cost reduction. New approaches are needed to close the gap between business needs and what traditional IT can deliver. The document advocates for software-defined networking and open architectures to provide innovation, flexibility, and efficiency through an ecosystem of partners. This will allow networks to better support trends like cloud computing, big data, and security services.
PLNOG14: The benefits of "OPEN" in networking for operators - Joerg Ammon, Br...PROIDEA
Joerg Ammon - Brocade
Language - English
Many of the recent trends in networking, more precisely software defined networking, are centered around OPEN - Openflow, OpenStack, OpenDaylight to name only a few. What is the state of those projects? What is ready to be deployed? Where is the industry moving? How do network operators and end users benefit from those trends? How do open interfaces and joint community effort speed up development of real world networking applications that are truly new and useful for today's infrastructures?
Register for the next edition of PLNOG conference today: http://plnog.pl
The document discusses the need for standardization in the Internet-of-Things (IoT). It notes that IoT involves a highly heterogeneous set of sensors, devices, and data that needs interoperability standards. It describes some existing standards for different IoT layers including networking, data formats, protocols, and interfaces. The document advocates for both syntactic and semantic interoperability standards and outlines Tata Consultancy Services' contributions to various standards bodies.
IoT is a green field of new business opportunities. The ran has started…..
Everyware Device Cloud (EDC) is a full set of Operational Technologies available also as a service, which represent the fastest way to start an IoT business.
You can connect a Device to Cloud in 15 minutes.
With EDC A typical IoT project would take 2 to 6 months to go live and the ROI is really fast
.
Similar to October Southern CA Road Shows - Build Safe and Secure Distributed Systems (20)
Real-Time Innovations (RTI) is the largest software framework provider for smart machines and real-world systems. The company’s RTI Connext® product enables intelligent architecture by sharing information in real-time, making large applications work together as one.
The document discusses security for the Industrial Internet of Things (IIoT) and Connext DDS Secure. It provides an overview of security frameworks from the Industrial Internet Consortium, including how they address threats in publish-subscribe systems. It then describes the key features of Connext DDS Secure, which is based on the DDS Security specification and provides authentication, access control, and encryption without a broker. The document demonstrates how to configure QoS profiles and permission files to set up secure domains for a Connext DDS shapes demo.
This document summarizes a presentation on the ISO 26262 approval of automotive software components. The presentation discusses ISO 26262 objectives for software, key characteristics of reusable software components, and the integration of qualified software components. It notes that ISO 26262 qualification of software components is possible if components have certain characteristics like modularity and provide documentation like a compliance matrix to guide integrators.
This document summarizes a presentation on developing autonomous vehicle architectures. It discusses using a data-centric middleware approach like the Data Distribution Service (DDS) standard to integrate sensors, fusion software, and control systems. DDS provides a common data model, quality of service controls, security features, and other benefits to help lower development risks. It also advocates consolidating electronic control units using a hypervisor and safety-certified operating system like QNX to isolate functions with different safety requirements. The presentation argues this is a lower-risk path to autonomous vehicle architecture than point-to-point and client-server approaches.
By John Breitenbach, RTI Field Applications Engineer
Contents
Introduction to RTI
Introduction to Data Distribution Service (DDS)
DDS Secure
Connext DDS Professional
Real-World Use Cases
RTI Professional Services
The document discusses fog computing and its role in industrial IoT (IIoT) systems. Fog computing refers to flexible, distributed computing resources and services located between end devices and centralized cloud computing infrastructure. It helps enable real-time response, reliable availability, and complex data management required for IIoT applications. The Industrial Internet Consortium is working to develop common architectures to connect sensors to cloud across industries using fog computing technologies like the Data Distribution Service standard.
This document discusses cyber security challenges for connected cars. It notes connected cars have multiple attack surfaces through the internet, cloud, communication with other cars, and in-car systems. The document advocates for a layered security approach, including boundary security, transport-level security, and fine-grained data-centric security. It describes using Real-Time Innovation's Connext DDS Secure product to implement fine-grained security at the individual data topic level to control access and ensure proper system operation in a secure manner.
This document discusses safety considerations for next-generation autonomous vehicles and how RTI's data distribution service (DDS) middleware can help address them. DDS ensures reliable data availability in real-time across complex systems, facilitates integration of diverse components, and enables flexible deployment. Its use of a common data model simplifies safety certification processes.
This document discusses RTI's Transport Services Segment (TSS) Reference Implementation, which is built on Connext DDS Cert and conforms to the FACE Safety Base Profile. It provides an overview of the TSS context within FACE, the Transport Services API, and the modular and configurable architecture of Connext DDS Micro and Cert. Connext DDS Cert is designed for safety-critical applications and its code is certifiable to DO-178C Level A, the most stringent safety standard, with reusable certification evidence.
This document discusses data distribution service (DDS) security for the industrial internet of things (IIoT). It provides background on DDS and the IIoT. It then discusses how DDS security works, including pluggable security architectures, authentication, access control, and message security. The goal of DDS security is to prevent unauthorized access to data in the global data space shared by DDS applications. Built-in security capabilities include X.509 authentication, access control configuration, and encryption/message authentication algorithms.
1) GE Healthcare is using RTI Connext DDS as the connectivity platform for its Industrial Internet of Things (IIoT) architecture. Connext DDS can handle many classes of intelligent machines and satisfies GE's demanding requirements.
2) GE Healthcare is leveraging the Predix architecture to connect medical devices, cloud analytics, and mobile/wearable instruments. The future communication fabric of its monitoring technology is based on Connext DDS.
3) Physio-Control uses Connext DDS to exchange critical patient care information throughout the system of care, connecting vehicle systems, cloud systems, and infrastructure systems.
Connext DDS Cert provides a certifiable implementation of the Data Distribution Service (DDS) standard for safety-critical and mission-critical systems. It handles connectivity and integration challenges and supports DO-178C Level A certification. Using Connext DDS Cert can reduce certification costs by replacing custom connectivity code and simplifying system architecture. Real-Time Innovations provides a full certification data package to support certification of systems using Connext DDS Cert.
Mahindra Group has a history of global collaboration and pioneering globalization. Its purpose is to challenge conventional thinking and enable stakeholders to rise. Tech Mahindra is a leader in engineering for next-gen connected solutions and the internet of things. It provides connected engineering and analytics services across industries like automotive, healthcare, smart cities, and renewable energy to manage the changing world.
Presented by: Mr Keith Smith, UK GVA Office, Defence Equipment and Support, UK MOD
A presentation on the progress, plans and development of the UK Generic Vehicle Architecture Programme, which underpins the integration of future UK military vehicle mission systems. The presentation will address the requirement to use DDS technology and an OMG Model Driven Architecture Approach for the data modeling aspects. It will also cover the creation of NATO GVA STANAG 4754 based on the UK GVA Approach.
Presented by: Daniel Gavrila, Senior Software Engineer, Selex ES GmbH
In the context of the SESAR (Single European Sky ATM Research) project SELEX ES GmbH was in charge to develop one prototype to provide meteorological services to airspace users involved in air traffic management activities. The WISADS system processes the weather information and generates warnings and alerts due to freely definable and combinable thresholds. A browser based graphical user interface that is using a GIS background was developed.
The RTI Connext DDS is used to facilitate the communication between different processes in the WISADS system.
Presented by: Johnny Willemsen, CTO, Remedy IT
Our presentation will give an overview of our component based approach and how we integrated RTI Connext DDS in a way that we can provide an interaction pattern based C++11 API to our users. The component based approach simplifies the application code and provides an architectural framework for the complete system.
Presented by: Sergey Tarassenko, Research Assistant, Institute of Robotics and Mechatronics, DLR
Minimally invasive surgery (MIS) challenges the surgeon's skills due to his separation from the operation area which can be reached by long laparoscopic instruments only. To overcome the drawbacks of conventional MIS the DLR works on a research system for telerobotic endoscopic surgery. The DLR telesurgery scenario MiroSurge system includes a master console with a 3D-display and two haptic devices to control three MIRO robot arms. RTI Connext DDS provides the communications infrastructure between robots, controllers and user interfaces, facilitating synchronization and coordination between them.
Atelier - Innover avec l’IA Générative et les graphes de connaissancesNeo4j
Atelier - Innover avec l’IA Générative et les graphes de connaissances
Allez au-delà du battage médiatique autour de l’IA et découvrez des techniques pratiques pour utiliser l’IA de manière responsable à travers les données de votre organisation. Explorez comment utiliser les graphes de connaissances pour augmenter la précision, la transparence et la capacité d’explication dans les systèmes d’IA générative. Vous partirez avec une expérience pratique combinant les relations entre les données et les LLM pour apporter du contexte spécifique à votre domaine et améliorer votre raisonnement.
Amenez votre ordinateur portable et nous vous guiderons sur la mise en place de votre propre pile d’IA générative, en vous fournissant des exemples pratiques et codés pour démarrer en quelques minutes.
Transform Your Communication with Cloud-Based IVR SolutionsTheSMSPoint
Discover the power of Cloud-Based IVR Solutions to streamline communication processes. Embrace scalability and cost-efficiency while enhancing customer experiences with features like automated call routing and voice recognition. Accessible from anywhere, these solutions integrate seamlessly with existing systems, providing real-time analytics for continuous improvement. Revolutionize your communication strategy today with Cloud-Based IVR Solutions. Learn more at: https://thesmspoint.com/channel/cloud-telephony
Odoo ERP software
Odoo ERP software, a leading open-source software for Enterprise Resource Planning (ERP) and business management, has recently launched its latest version, Odoo 17 Community Edition. This update introduces a range of new features and enhancements designed to streamline business operations and support growth.
The Odoo Community serves as a cost-free edition within the Odoo suite of ERP systems. Tailored to accommodate the standard needs of business operations, it provides a robust platform suitable for organisations of different sizes and business sectors. Within the Odoo Community Edition, users can access a variety of essential features and services essential for managing day-to-day tasks efficiently.
This blog presents a detailed overview of the features available within the Odoo 17 Community edition, and the differences between Odoo 17 community and enterprise editions, aiming to equip you with the necessary information to make an informed decision about its suitability for your business.
Do you want Software for your Business? Visit Deuglo
Deuglo has top Software Developers in India. They are experts in software development and help design and create custom Software solutions.
Deuglo follows seven steps methods for delivering their services to their customers. They called it the Software development life cycle process (SDLC).
Requirement — Collecting the Requirements is the first Phase in the SSLC process.
Feasibility Study — after completing the requirement process they move to the design phase.
Design — in this phase, they start designing the software.
Coding — when designing is completed, the developers start coding for the software.
Testing — in this phase when the coding of the software is done the testing team will start testing.
Installation — after completion of testing, the application opens to the live server and launches!
Maintenance — after completing the software development, customers start using the software.
DDS Security Version 1.2 was adopted in 2024. This revision strengthens support for long runnings systems adding new cryptographic algorithms, certificate revocation, and hardness against DoS attacks.
Need for Speed: Removing speed bumps from your Symfony projects ⚡️Łukasz Chruściel
No one wants their application to drag like a car stuck in the slow lane! Yet it’s all too common to encounter bumpy, pothole-filled solutions that slow the speed of any application. Symfony apps are not an exception.
In this talk, I will take you for a spin around the performance racetrack. We’ll explore common pitfalls - those hidden potholes on your application that can cause unexpected slowdowns. Learn how to spot these performance bumps early, and more importantly, how to navigate around them to keep your application running at top speed.
We will focus in particular on tuning your engine at the application level, making the right adjustments to ensure that your system responds like a well-oiled, high-performance race car.
WhatsApp offers simple, reliable, and private messaging and calling services for free worldwide. With end-to-end encryption, your personal messages and calls are secure, ensuring only you and the recipient can access them. Enjoy voice and video calls to stay connected with loved ones or colleagues. Express yourself using stickers, GIFs, or by sharing moments on Status. WhatsApp Business enables global customer outreach, facilitating sales growth and relationship building through showcasing products and services. Stay connected effortlessly with group chats for planning outings with friends or staying updated on family conversations.
Mobile App Development Company In Noida | Drona InfotechDrona Infotech
Looking for a reliable mobile app development company in Noida? Look no further than Drona Infotech. We specialize in creating customized apps for your business needs.
Visit Us For : https://www.dronainfotech.com/mobile-application-development/
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Discover the essential features to incorporate in your Winzo clone app to boost business growth, enhance user engagement, and drive revenue. Learn how to create a compelling gaming experience that stands out in the competitive market.
Neo4j - Product Vision and Knowledge Graphs - GraphSummit ParisNeo4j
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Zoom is a comprehensive platform designed to connect individuals and teams efficiently. With its user-friendly interface and powerful features, Zoom has become a go-to solution for virtual communication and collaboration. It offers a range of tools, including virtual meetings, team chat, VoIP phone systems, online whiteboards, and AI companions, to streamline workflows and enhance productivity.
Takashi Kobayashi and Hironori Washizaki, "SWEBOK Guide and Future of SE Education," First International Symposium on the Future of Software Engineering (FUSE), June 3-6, 2024, Okinawa, Japan
May Marketo Masterclass, London MUG May 22 2024.pdfAdele Miller
Can't make Adobe Summit in Vegas? No sweat because the EMEA Marketo Engage Champions are coming to London to share their Summit sessions, insights and more!
This is a MUG with a twist you don't want to miss.
May Marketo Masterclass, London MUG May 22 2024.pdf
October Southern CA Road Shows - Build Safe and Secure Distributed Systems
1. Your systems. Working as one.
Build Safe & Secure Distributed Systems
How to Architect Scalable Systems for the Industrial Internet using Open Standards
20. Gateway
There are many vectors along which we can measure end-point “robustness.” Table 1
summarizes these vectors:
Table 1: Near-term end-point differences between IIoT and HIoT
Attribute Industrial IoT (IIoT) Human IoT (HIoT)
Market Opportunity Brownfield Greenfield
Product Lifecycle Until dead or obsolete Whims of style and/or budget
Solution Integration Heterogeneous APIs Vertically integrated
Security Access Identity & privacy
Human Interaction Autonomous Reactive
Availability 0.9999 to 0.99999 (49–5 ‘ ’s) 0.99 to 0.999 (2–3 ‘9’s)
Access to Internet Intermittent to independent Persistent to interrupted
Response to Failure Resilient, fail-in-place Retry, replace
Network Topology Federations of peer-to-peer Constellations of peripherals
Physical
Legacy & purpose-built Evolving broadband &
Connectivity
wireless
Example Gateways Commercial monitoring
Echelon SmartServer
Consumer home automation
Revolv Hub
Interaction Style Event Driven, Publish-Subscribe Request / Response
Market Opportunity: “Brownfield” is a term borrowed from commercial real estate; it is
used to denote a potential site for building development that had been previously
developed for industrial or commercial use. IIoT uses brownfield to describe the
opportunity to connect more than a century of in-service mechanical and electrical
http://www.moorinsightsstrategy.com/wp-content/uploads/2013/10/Connecting-with-the-Industrial-Internet-of-Things-IIoT-by-Moor-Insights-Strategy.pdf
Moore Insights report 2014
31. Why Distribution Middleware?
1.0 Common Services
1.0 Common Services
RDR IFF ESM SAFE
RDR IFF ESM SAFE
DIA NAV MCP IPCC
DIA NAV MCP IPCC
DWC
Grouping the modules into functional clusters does nothing to change that reality
and ease software integration
UNCLASSIFIED
Hawkeye has functionally
oriented software modules
Each module talks to many
other modules
RIP TRK MSI
WAC TDA
L4 L11 L16 SEN DSC
HMI ACIS
MUX
FIL TDM
Adding new
functionality
cascades integration
re-work across many
other modules
CEC
8.0 Training
5.0 Communications
2.0 Sensors
3.0 Fusion
4.0 BMC2
7.0 Visualization
6.0 Sensor Control
RIP CEC TRK MSI
WAC TDA RAIDER
CHAT
SEN DSC
Distributed Data Framework
L4 L11 L16 IPv6
HMI ACIS T4O
MUX
FIL TDM aADNS TIS
Changing the communication between the modules can ease integration, when the
new ‘Publish Subscribe’ approach is used – each module publishes its output w/o
regard to who is receiving it, in contrast to the point-to-point approach of traditional
inter-process communication
It’s about an architecture that can assimilate evolving functionality,
rather than remaining set in time
100. Service
Plugin
Purpose Interactions
Authentication Authenticate the principal that is
joining a DDS Domain.
Handshake and establish
shared secret between
participants
The principal may be an
application/process or the user
associated with that
application or process.
Participants may messages to
do mutual authentication and
establish shared secret
Access Control Decide whether a principal is
allowed to perform a protected
operation.
Protected operations include
joining a specific DDS domain,
creating a Topic, reading a
Topic, writing a Topic, etc.
Cryptography Perform the encryption and
decryption operations. Create &
Exchange Keys. Compute digests,
compute and verify Message
Authentication Codes. Sign and
verify signatures of messages.
Invoked by DDS middleware
to encrypt data, compute and
verify MAC, compute & verify
Digital Signatures
Logging Log all security relevant events Invoked by middleware to log
Data Tagging Add a data tag for each data