The document discusses NASPInet, a system that provides situational awareness for next-generation power grids. It uses RTI's middleware to exchange different classes of data in real-time with varying priorities. Implementing NASPInet requires solving challenges like scalability, low latency, and fault tolerance. The middleware acts as a layer between applications and the network, handling connections, failures, and controlling communication quality of service.
The document discusses NASPInet, a system that provides situational awareness for next-generation power grids. It uses middleware called RTI to exchange different classes of data in real-time to monitor the grid. Implementing NASPInet requires solving challenges like scalability, low latency, and fault tolerance. The middleware acts as a layer between applications and the network, handling connections, translations, and quality of service controls for communication.
Application developers are key to the success of an edge compute strategy. They are the backbone for any digital ecosystem and their requirements drive the platform architecture. Edge computing is no different. In this talk, we will focus on some key requirements, challenges and possible solutions for a developer centric architecture for multi-access edge computing including abstraction of the service provider’s network complexity, low footprint cloud native builder models, micro-services, hardware abstractions, intelligence layers and massive monitoring of application instances.
About the speaker: Shamik Mishra is currently Assistant Vice President (AVP), Technology and Innovation at Aricent. He is a practice leader for new product architectures. He has extensive experience and contributions in software development in cloud, wireless technologies, edge computing and platform software. His research interests are Network Function Virtualization (NFV), Cloud and edge computing and Machine Learning (ML). He has spoken in several conferences and his work is regularly covered in the media. Shamik has a bachelor’s and a master’s degree from Indian Institute of Technology (IIT) Kharagpur, India.
Multi-Cloud Load Balancing and Application ServicesAvi Networks
Multi-cloud load balancing presents challenges around separate control points, limited features, lack of automation and elasticity, and inability to ensure consistency across clouds. Avi Networks addresses these challenges with a software-defined load balancing architecture that provides consistent application services across multiple cloud fabrics. It features built-in integrations with leading cloud platforms, a centralized controller, and software load balancers for elasticity. Avi aims to improve operational efficiency, consistency, and time-to-market for applications in multi-cloud environments.
A revolution is going on at the Edge of the Network.
Why Edge is important?
How Edge Computing is shaping the way we do IoT, AR/VR, Big Data, Machine Learning and Analytics applications.
What are the important problems and who’s problem is this?
What solutions Industry is looking into right now?
This review of the "Industry report by SDxCentral" summarizes what is going on in the Industry.
Gigaom's Structure 2014 conference, June 21-22 in San Francisco Launchpad company profiles
#gigaomlive
More at http://events.gigaom.com/structure-2014/
This document discusses how Cisco's Unified Computing System (UCS) can help reduce datacenter costs compared to traditional server architectures. It provides examples of how UCS can help reduce costs through buying fewer servers, simplifying infrastructure and cabling requirements, lowering power and cooling needs, and reducing ongoing administration through unified management. Specific cost savings examples are given for blade server chassis/switching and rack server switching/cabling.
Structure 2014 - Disrupting the data center - Intel sponsor workshopGigaom
Presentation from Gigaom's Structure 2014 conference, June 21-22 in San Francisco
Intel sponsor workshop: Disrupting the data center
#gigaomlive
More at http://events.gigaom.com/structure-2014/
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.
The document discusses NASPInet, a system that provides situational awareness for next-generation power grids. It uses middleware called RTI to exchange different classes of data in real-time to monitor the grid. Implementing NASPInet requires solving challenges like scalability, low latency, and fault tolerance. The middleware acts as a layer between applications and the network, handling connections, translations, and quality of service controls for communication.
Application developers are key to the success of an edge compute strategy. They are the backbone for any digital ecosystem and their requirements drive the platform architecture. Edge computing is no different. In this talk, we will focus on some key requirements, challenges and possible solutions for a developer centric architecture for multi-access edge computing including abstraction of the service provider’s network complexity, low footprint cloud native builder models, micro-services, hardware abstractions, intelligence layers and massive monitoring of application instances.
About the speaker: Shamik Mishra is currently Assistant Vice President (AVP), Technology and Innovation at Aricent. He is a practice leader for new product architectures. He has extensive experience and contributions in software development in cloud, wireless technologies, edge computing and platform software. His research interests are Network Function Virtualization (NFV), Cloud and edge computing and Machine Learning (ML). He has spoken in several conferences and his work is regularly covered in the media. Shamik has a bachelor’s and a master’s degree from Indian Institute of Technology (IIT) Kharagpur, India.
Multi-Cloud Load Balancing and Application ServicesAvi Networks
Multi-cloud load balancing presents challenges around separate control points, limited features, lack of automation and elasticity, and inability to ensure consistency across clouds. Avi Networks addresses these challenges with a software-defined load balancing architecture that provides consistent application services across multiple cloud fabrics. It features built-in integrations with leading cloud platforms, a centralized controller, and software load balancers for elasticity. Avi aims to improve operational efficiency, consistency, and time-to-market for applications in multi-cloud environments.
A revolution is going on at the Edge of the Network.
Why Edge is important?
How Edge Computing is shaping the way we do IoT, AR/VR, Big Data, Machine Learning and Analytics applications.
What are the important problems and who’s problem is this?
What solutions Industry is looking into right now?
This review of the "Industry report by SDxCentral" summarizes what is going on in the Industry.
Gigaom's Structure 2014 conference, June 21-22 in San Francisco Launchpad company profiles
#gigaomlive
More at http://events.gigaom.com/structure-2014/
This document discusses how Cisco's Unified Computing System (UCS) can help reduce datacenter costs compared to traditional server architectures. It provides examples of how UCS can help reduce costs through buying fewer servers, simplifying infrastructure and cabling requirements, lowering power and cooling needs, and reducing ongoing administration through unified management. Specific cost savings examples are given for blade server chassis/switching and rack server switching/cabling.
Structure 2014 - Disrupting the data center - Intel sponsor workshopGigaom
Presentation from Gigaom's Structure 2014 conference, June 21-22 in San Francisco
Intel sponsor workshop: Disrupting the data center
#gigaomlive
More at http://events.gigaom.com/structure-2014/
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.
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.
Is Cloud Computing an evolution or revolution? What does it mean for Not For Profit organisations? What are the advantages and disadvantages of moving to the cloud? What are the pitfalls to be avoided? Will Cloud Computing suit every NFP organisation? … Just what is Cloud Computing and what is all the fuss about anyway?
From a fundamental overview to developing a strategy, for either adopting the cloud or not, your presenter, Steve Cast, Founder and MD of AdvantageNFP will answer these questions, offering valuable insights, using “real life” client case studies from the NFP sector.
This document discusses densification solutions for indoor cellular networks. It outlines opportunities around blurring the lines between distributed antenna systems and small cells, incorporating WiFi, making networks smarter and more dynamic, and embracing technologies like C-RAN and passive optical LAN. The key benefits highlighted include long-term scalability, lower total cost of ownership, and faster time to revenue through more flexible infrastructure that does not require rip-and-replace upgrades.
Multimedia Analytics with 5G Edge NodesAnand Bhojan
Presentation at ACM-MM-19 TPC meeting: https://sites.google.com/comp.nus.edu.sg/mm19-tpc-meeting/workshop
With the growing popularity of X-Reality (VR/AR/MR) generation of global media-data is expected to accelerate at much higher rate. Most of these data need real-time processing such as real-time facial features/emotion recognition to environmental context recognition/mapping beyond the capabilities of an MR glass. The demand for high communication bandwidth and ultra-low latency (<15ms motion to photon latency) will drive the community to exploit the capabilities of the telco edge nodes and push telcos to build more powerful edge nodes. The real-time analytics of media data with strict real-time constraints will be the ‘killer application’ of 5G networks and edge computing. In addition, we believe, multimedia analytics and 5G/edge computing will be the key to push for mass adoption of XR devices. In this talk, we will explore some suitable media analytics methods and architecture to run media analytics with the 5G edge nodes.
The document summarizes a seminar on cloud computing security presented by Hogan Kusnadi. It discusses the rapid development of information and communication technology including cloud computing. It outlines cloud computing models and types of cloud services. It also discusses key cloud security risks like data breaches, denial of service attacks, and insider threats. Finally, it provides an overview of the Cloud Security Alliance, an organization focused on cloud security best practices.
This document discusses how networks can become aware of users, devices, applications, locations and services to better support business needs. It outlines a three step approach: 1) Leverage the network's awareness, 2) Apply appropriate performance controls, and 3) Empower applications. Specific capabilities mentioned include user identity tracking, location services, device intelligence, virtual machine lifecycle support, service provisioning, and application-defined performance and controls. The network presented appears able to gain awareness from layers above it and dynamically adapt its behavior to optimize for different business and technical requirements.
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.
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.
This document provides an overview of Ruckus Unleashed and SmartZone products. It discusses how Unleashed allows access points to function without a separate controller through built-in controller functionality. SmartZone is a controller-based system that can manage both wired and wireless networks from a single interface. The presentation includes demonstrations of the management interfaces and discusses new features like improved dashboards. Current promotion offers are also mentioned, including free Ruckus Analytics licenses and discounted Unleashed access point pricing.
Small Cell Forum’s carrier members have set out six mission critical priorities to commercialize the mobile edge. In this webinar, join SCF Chair Alan Law as he talks to industry experts on how to approach the evolving needs of the networks and crucially, monetize the use of small cells. Ahead of Small Cells Americas, taking place in Dallas 2 – 4 November, the panel will discuss how an updated agenda at the conference reflects key industry issues, and the processes being explored in order to commercialize the deployment of small cells.
Virtualisation - A new workstream for the SCF from Mark Grayson (Cisco)Small Cell Forum
At a recent open workshop hosted by the Small Cell Forum, Mark Grayson (Distinguished Engineer, Cisco) set out plans for a new work stream for the organisation. Focusing on the demand and development of Virtualization, this presentation also outlines the operator needs and a full work plan for the Forum.
The aim of the Small Cell Forum is to provide leadership in creating a unified view of the evolving role of virtualized architectures for dense HetNet.
5G & Edge: High Performance with Zero-Trust SecurityRebekah Rodriguez
5G and edge computing enable new enterprise use cases by providing faster internet speeds, lower latency, and the ability to connect more devices. However, fully realizing the benefits of 5G presents challenges related to regulations, integration of telecom and IT systems, evolving specifications, and security risks from a larger attack surface and network complexity. A zero trust security model that verifies all connections and limits access based on need can help address these risks. Edge computing deployments close to devices and data sources are also needed to achieve the low latency promised by 5G.
The document discusses managing cloud infrastructure and delivering IT as a service. It outlines the challenges of infrastructure management as organizations transition to cloud computing. EMC's cloud management solutions, including Unified Infrastructure Manager (UIM) and IONIX IT Orchestrator (ITO), help speed provisioning, ensure service assurance and compliance across hybrid cloud environments. The solutions automate deployment and management of workloads on Vblock converged infrastructure and non-Vblock environments through unified APIs and orchestration.
The document discusses Multi-access Edge Computing (MEC), which extends cloud computing capabilities to the edge of the network. MEC provides ultra-low latency and high bandwidth connectivity. It enables new applications like augmented reality, connected vehicles, and IoT analytics. MEC deployments can be flexible and scalable to different locations. The document outlines several example MEC applications including edge video orchestration, video analytics, augmented reality, and supporting connected vehicles. It also discusses the ETSI MEC phase 1 work focusing on application enablement and APIs.
TADSummit, DataArt Keynote: Security in Virtualized Telecom Networks Michael ...Alan Quayle
DataArt Keynote: Security in Virtualized Telecom Networks
Michael Lazar, VP Telecoms Practice, DataArt
One aspect of Programmable Telecoms is the network becomes software defined, and thanks to virtualization with shared resources it can possibly achieve $32B in savings by 2020 according to SNS Research.
It is critical to understand the unique security issues of virtualization in telecom networks with multi-vendor and cross-vendor management issues that require a standardized architecture with complex management requirements.
This presentation will cover critical security aspects such as shared memory, shared networking, timekeeping, attestation, hardware security devices, hardware security enclaves, software confinement technologies and more.
The objective is to deliver clear understanding of the challenges in securing SDN/NFV, and the steps telcos need to take in that migration.
OSN Bay Area Feb 2019 Meetup: Lumina Networks, Unlocking a digital futureLumina Networks
Open source and intent-based networking simplifies and
optimizes heterogeneous networks. With Lumina Networks,
Service Providers have the freedom to take control of their future.
The document summarizes discussions from the Mumbai Densification Summit in October 2017 regarding enterprise small cell deployments. It provides an overview of the Small Cell Forum's Enterprise and Business Innovation Working Group activities, including case studies on mass deployment needs, designing dense venues, and covering high-rise residential areas. It also outlines the working group's goals of developing new business models to accelerate enterprise adoption of small cells by addressing challenges around cost, multi-operator support, and network management.
The document discusses NASPInet, a system that provides situational awareness for next-generation power grids. It uses middleware called RTI to exchange different classes of data in real-time between complex distributed systems. Implementing NASPInet requires solving challenges like scalability, low latency, and fault tolerance. The middleware acts as a layer between applications and the network, handling connections, translations, and quality of service controls for communication.
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
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.
Is Cloud Computing an evolution or revolution? What does it mean for Not For Profit organisations? What are the advantages and disadvantages of moving to the cloud? What are the pitfalls to be avoided? Will Cloud Computing suit every NFP organisation? … Just what is Cloud Computing and what is all the fuss about anyway?
From a fundamental overview to developing a strategy, for either adopting the cloud or not, your presenter, Steve Cast, Founder and MD of AdvantageNFP will answer these questions, offering valuable insights, using “real life” client case studies from the NFP sector.
This document discusses densification solutions for indoor cellular networks. It outlines opportunities around blurring the lines between distributed antenna systems and small cells, incorporating WiFi, making networks smarter and more dynamic, and embracing technologies like C-RAN and passive optical LAN. The key benefits highlighted include long-term scalability, lower total cost of ownership, and faster time to revenue through more flexible infrastructure that does not require rip-and-replace upgrades.
Multimedia Analytics with 5G Edge NodesAnand Bhojan
Presentation at ACM-MM-19 TPC meeting: https://sites.google.com/comp.nus.edu.sg/mm19-tpc-meeting/workshop
With the growing popularity of X-Reality (VR/AR/MR) generation of global media-data is expected to accelerate at much higher rate. Most of these data need real-time processing such as real-time facial features/emotion recognition to environmental context recognition/mapping beyond the capabilities of an MR glass. The demand for high communication bandwidth and ultra-low latency (<15ms motion to photon latency) will drive the community to exploit the capabilities of the telco edge nodes and push telcos to build more powerful edge nodes. The real-time analytics of media data with strict real-time constraints will be the ‘killer application’ of 5G networks and edge computing. In addition, we believe, multimedia analytics and 5G/edge computing will be the key to push for mass adoption of XR devices. In this talk, we will explore some suitable media analytics methods and architecture to run media analytics with the 5G edge nodes.
The document summarizes a seminar on cloud computing security presented by Hogan Kusnadi. It discusses the rapid development of information and communication technology including cloud computing. It outlines cloud computing models and types of cloud services. It also discusses key cloud security risks like data breaches, denial of service attacks, and insider threats. Finally, it provides an overview of the Cloud Security Alliance, an organization focused on cloud security best practices.
This document discusses how networks can become aware of users, devices, applications, locations and services to better support business needs. It outlines a three step approach: 1) Leverage the network's awareness, 2) Apply appropriate performance controls, and 3) Empower applications. Specific capabilities mentioned include user identity tracking, location services, device intelligence, virtual machine lifecycle support, service provisioning, and application-defined performance and controls. The network presented appears able to gain awareness from layers above it and dynamically adapt its behavior to optimize for different business and technical requirements.
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.
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.
This document provides an overview of Ruckus Unleashed and SmartZone products. It discusses how Unleashed allows access points to function without a separate controller through built-in controller functionality. SmartZone is a controller-based system that can manage both wired and wireless networks from a single interface. The presentation includes demonstrations of the management interfaces and discusses new features like improved dashboards. Current promotion offers are also mentioned, including free Ruckus Analytics licenses and discounted Unleashed access point pricing.
Small Cell Forum’s carrier members have set out six mission critical priorities to commercialize the mobile edge. In this webinar, join SCF Chair Alan Law as he talks to industry experts on how to approach the evolving needs of the networks and crucially, monetize the use of small cells. Ahead of Small Cells Americas, taking place in Dallas 2 – 4 November, the panel will discuss how an updated agenda at the conference reflects key industry issues, and the processes being explored in order to commercialize the deployment of small cells.
Virtualisation - A new workstream for the SCF from Mark Grayson (Cisco)Small Cell Forum
At a recent open workshop hosted by the Small Cell Forum, Mark Grayson (Distinguished Engineer, Cisco) set out plans for a new work stream for the organisation. Focusing on the demand and development of Virtualization, this presentation also outlines the operator needs and a full work plan for the Forum.
The aim of the Small Cell Forum is to provide leadership in creating a unified view of the evolving role of virtualized architectures for dense HetNet.
5G & Edge: High Performance with Zero-Trust SecurityRebekah Rodriguez
5G and edge computing enable new enterprise use cases by providing faster internet speeds, lower latency, and the ability to connect more devices. However, fully realizing the benefits of 5G presents challenges related to regulations, integration of telecom and IT systems, evolving specifications, and security risks from a larger attack surface and network complexity. A zero trust security model that verifies all connections and limits access based on need can help address these risks. Edge computing deployments close to devices and data sources are also needed to achieve the low latency promised by 5G.
The document discusses managing cloud infrastructure and delivering IT as a service. It outlines the challenges of infrastructure management as organizations transition to cloud computing. EMC's cloud management solutions, including Unified Infrastructure Manager (UIM) and IONIX IT Orchestrator (ITO), help speed provisioning, ensure service assurance and compliance across hybrid cloud environments. The solutions automate deployment and management of workloads on Vblock converged infrastructure and non-Vblock environments through unified APIs and orchestration.
The document discusses Multi-access Edge Computing (MEC), which extends cloud computing capabilities to the edge of the network. MEC provides ultra-low latency and high bandwidth connectivity. It enables new applications like augmented reality, connected vehicles, and IoT analytics. MEC deployments can be flexible and scalable to different locations. The document outlines several example MEC applications including edge video orchestration, video analytics, augmented reality, and supporting connected vehicles. It also discusses the ETSI MEC phase 1 work focusing on application enablement and APIs.
TADSummit, DataArt Keynote: Security in Virtualized Telecom Networks Michael ...Alan Quayle
DataArt Keynote: Security in Virtualized Telecom Networks
Michael Lazar, VP Telecoms Practice, DataArt
One aspect of Programmable Telecoms is the network becomes software defined, and thanks to virtualization with shared resources it can possibly achieve $32B in savings by 2020 according to SNS Research.
It is critical to understand the unique security issues of virtualization in telecom networks with multi-vendor and cross-vendor management issues that require a standardized architecture with complex management requirements.
This presentation will cover critical security aspects such as shared memory, shared networking, timekeeping, attestation, hardware security devices, hardware security enclaves, software confinement technologies and more.
The objective is to deliver clear understanding of the challenges in securing SDN/NFV, and the steps telcos need to take in that migration.
OSN Bay Area Feb 2019 Meetup: Lumina Networks, Unlocking a digital futureLumina Networks
Open source and intent-based networking simplifies and
optimizes heterogeneous networks. With Lumina Networks,
Service Providers have the freedom to take control of their future.
The document summarizes discussions from the Mumbai Densification Summit in October 2017 regarding enterprise small cell deployments. It provides an overview of the Small Cell Forum's Enterprise and Business Innovation Working Group activities, including case studies on mass deployment needs, designing dense venues, and covering high-rise residential areas. It also outlines the working group's goals of developing new business models to accelerate enterprise adoption of small cells by addressing challenges around cost, multi-operator support, and network management.
The document discusses NASPInet, a system that provides situational awareness for next-generation power grids. It uses middleware called RTI to exchange different classes of data in real-time between complex distributed systems. Implementing NASPInet requires solving challenges like scalability, low latency, and fault tolerance. The middleware acts as a layer between applications and the network, handling connections, translations, and quality of service controls for communication.
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
This document discusses Real-Time Innovations' (RTI) role in enabling systems interoperability. It provides examples of how RTI's middleware allows different systems and components to work together in applications such as military systems, industrial control systems, medical devices, and more. The document also describes RTI's standards-based approach and its vision for open interoperable architectures like FACE (Future, Agile, Composable Environment) that enable reuse across platforms.
The document discusses how the Data Distribution Service (DDS) technology from Real-Time Innovations (RTI) is well-suited for enabling communication in the Industrial Internet of Things (IIoT). DDS provides a common communications platform that can integrate diverse systems and connect devices, edge computing, and the cloud. It discusses how DDS is used across many industries to enable reliable, real-time communication for critical systems.
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
VMworld 2013: Network Function Virtualization in the Cloud: Case for Enterpri...VMworld
VMworld 2013
Alka Gupta, VMware
Sanjay Aiyagari, VMware
Allon Dafner, Amdocs
Iain Woolf, Alcatel-Lucent
Artur Tyloch, Nokia Solutions and Networks
Learn more about VMworld and register at http://www.vmworld.com/index.jspa?src=socmed-vmworld-slideshare
A New Approach to Continuous Monitoring in the CloudNETSCOUT
In this #CLUS 2019 session, you will learn how NETSCOUT’s smart data platform enables continuous monitoring in hybrid cloud environments to minimize risk and accelerate customer migration to the Cloud. You will review real-life examples of how businesses optimized their Cloud migration gaining visibility and deep insights, in both physical and virtual worlds, to maintain continuity and security of the services throughout the migration process.
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.
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.
Virtualization 101 provides an overview of virtualization and the VMware product suite. It begins with an introduction to virtualization and its benefits such as cost reduction and increased efficiency. It then discusses VMware's position as the market leader in virtualization and its core virtualization products, including vSphere Hypervisor. vSphere Hypervisor is VMware's free hypervisor that allows users to quickly partition a physical server into multiple virtual machines. The document provides installation and setup instructions for vSphere Hypervisor and explains how to create and manage virtual machines. It aims to give attendees a fundamental understanding of virtualization and how to get started with VMware's virtualization technology.
Milliseconds Matter: Optimize Cloud Apps with Network Control (NET314-S) - AW...Amazon Web Services
Everyone appreciates the power of the global Internet while still understanding its performance and latency limitations as a best-effort system. Although many organizations understand that direct connectivity into the public cloud helps ensure network consistency, it’s not always clear how integrated combinations of backbone, routing, and orchestration can optimize cloud applications. In this session, CenturyLink presents a number of innovative approaches to optimizing application deployment through control of the underlying network infrastructure. Join CenturyLink for a demonstration of emerging workloads, and the difference your cloud connection can make when milliseconds matter. This session is brought to you by AWS partner, CenturyLink.
tw telecom's Intelligent Network helps businesses connect to cloud computing solutions and applications providers by providing visibility, flexibility, and control over their network and traffic. It offers value-added capabilities like enhanced management of bandwidth and application-aware networking to support changing IT strategies and consumption models. The network connects enterprises, data centers, and applications providers to create an ecosystem for businesses adopting cloud and virtualization solutions.
The document describes ICC Networking and its intelligent content control solution. It discusses how ICC delivers simple, smart management for unified wired and wireless IP data networking to handle increasing network performance requirements. It also details how ICC improves business and IT service levels and reduces costs through better network control. The solution provides custom concepts, global teams, multi-channel expertise, and experience to deliver value through high performance, simple scalability, software intelligence, resilience and enterprise-proven security, management and content protection.
The value proposition of enabling IP data networks with intelligent unified solutions. ICC Networking as the best software-driven solution to drive down the cost of connectivity while increasing network elasticity and performance.
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.
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.
Learn practical use cases for achieving data and application migration, availability, and protection as you grow with AWS.
Presenter: Michael Long, Systems Engineer ANZ, Veritas
The "Internet of Things" (IoT) has been around a long time and is becoming an increasingly growing topic. It has already impacted on our everyday lives at the workplace and at home.
Come and dive in for a night of exploration as we speak about some amazing products, IoT trends, current landscape and what the future will hold
There will be short IoT presentations as well as a panel of IoT panel speakers for you to engage and ask questions.
This document discusses how emerging technologies are driving changes in networking and opportunities for network providers. It covers how the cloud, internet of things, security concerns, and software-defined networking are impacting network design and provision of services. The cloud is increasing bandwidth demands and changing traffic patterns. The internet of things is connecting more devices and data sources. Security is more complex with open networks. Software-defined networking allows more flexible provisioning of network services and connectivity to clouds. These forces provide opportunities for network operators to offer new services that enable elastic, efficient, open, and secure networks.
13. Data
Reader
“Market”
Domain
Participant
Data
Writer
“Market”
Domain
Participant
DDS communications model
• Participants scope the global data space (domain)
• Topics define the data-objects (collections of subjects)
• Writers publish data on Topics
• Readers subscribe to data on Topics
• QoS Contracts control information flow
• Listeners notify the application of events
Listener
Offered
QoS Listener
Got new
data
Requested
QoS
New
subscriber
!
19. Automotive Safety
The VW Driver Assistance
& Integrated Safety
system provides steering
assistance when
swerving to avoid
obstacles, detects when
the lane narrows or
passing wide loads, and
helps drivers to safely
negotiate bends.
RTI middleware
coordinates all the
sensors and automotive
systems. It bridges high
speed networking to the
CAN bus
Currently, the grids are being run by aging SCADA systems with primitive communication protocols, and little or no communication between the generational plants. There is poor monitoring, poor metrics, and no real concept of distributed control…. Without human operators, there is no way to manage and monitor the grid..
“Synchrophasor” technology will improve the situation. By collecting the phase angle differences from various locations of the grid at the SAME instant, we can monitor the state of the grid and take corrective action in real time by letting the operator know where the grid is going unstable. NASPI seeks to improve the power system reliability and visibility. The NASPI community has put together the NASPInet initiative which is an effort to develop an data communications infrastructure for the electric grid. From the maintaining low-latency for coast-to-coast data transmission to supporting a network where thousands of sensors will exchange information in real time, the NASPInet initiative is perhaps one of the most demanding project in developing a real-time distributed system. At the heart of the NASPInet architecture is a Phasor Measurement Unit, or the PMU. This simple device receives a GPS clock signal and voltages and currents from the electric power system. The measured values are then time-stamped, and are called synchrophasors since they are time-synchronized phasor values. The word phasor indicates a measurement of both the signal magnitude and the angle.The PMU data does not provide new ways to remedy a fault in the grid, but provides high-fidelity information before the occurrence of the event for the operator to take corrective action.
Figure 3: PMU data for an event that occurred on February 7, 2010. The frequency excursions captured by the PMUs helped capture more accurate information about the event (Courtesy naspi.org)
A Phasor Data Concentrator (PDC) correlated the phasor data from a number of PMUs and PDCs by time and feeds it as a single stream to other applications. PDCs allow us to capture wide-area disturbances, improve system security, and coordinate substation visualization. The Phasor Gateway in NASPInet lexicon controls access to all signals from its substations. Think of it as a router that enables NASPI network to access data from within the organization by verifying cyber security, access rights, data integrity, among other things. The Phasor Gateway is extremely critical because it also manages traffic format, timing compatibility, and setting traffic priority according to classes of data.
NASPInet will enable exchange of different classes of data with different priorities. For example, NASPInet will enable exchange of large-volume historical data with high reliability but with not strict end-to-end latency needs. On the other hand, NASPInet can mandate strict latency needs on exchange of PMU data while allowing some samples to be lost. To do this, NASPI defines classes of data, which indicate the type of contract a publisher and a subscriber need to have when exchanging that class of data.