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angelo.corsaro

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About angelo.corsaro

  • Rank
    CTO
  • Birthday July 18

Contact Methods

  • Website URL
    http://icorsaro.net
  • Skype
    Angelo.Corsaro

Profile Information

  • Gender
    Male
  • Location
    Paris
  • Interests
    Distributed Systems, Programming Langauges, Real-Time Systems, Non-Linear Systems Theory, Music (Jazz Bass), Windsurfing
  • Company
    PrismTech
  1. This presentation introduces XRCE a new protocol for very efficiently distributing data in resource constrained (power, network, computation, and storage) environments. XRCE greatly improves the wire efficiency of existing protocol and in many cases provides higher level abstractions. View the full article
  2. The DDS Security Standard

    This presentation introduces the DDS Security Standard. A plug-in based framework that provides data-centric security. View the full article
  3. These slides were presented at the oneM2M industrial Day in Shenzhen on the 24th of May 2017 View the full article
  4. RUSTing is not a tutorial on the Rust programming language. I decided to create the RUSTing series as a way to document and share programming idioms and techniques. From time to time I’ll draw parallels with Haskell and Scala, having some familiarity with one of them is useful but not indispensable. View the full article
  5. The large majority of commercial IoT platforms target consumer applications and fall short in addressing the requirements characteristic of Industrial IoT. Vortex has always focused on addressing the challenges characteristic of Industrial IoT systems and with 2.4 release sets a the a new standard! This presentation will (1) introduce the new features introduced in with Vortex 2.4, (2) explain how Vortex 2.4 addresses the requirements of Industrial Internet of Things application better than any other existing platform, and (3)showcase how innovative companies are using Vortex for building leading edge Industrial Internet of Things applications. View the full article
  6. Fog Computing Defined

    Fog computing has emerged as a new paradigm for architecting IoT applications that require greater scalability, performance and security. This talk will motivate the need to Fog Computing and explain what it is and how it differs from other initiatives in Telco such as Mobile/Multiple-Access Edge Computing. View the full article
  7. DDS In Action Part II

    Introduced in 2004, the Data Distribution Service (DDS) has been steadily growing in popularity and adoption. Today, DDS is at the heart of a large number of mission and business critical systems, such as, Air Traffic Control and Management, Train Control Systems, Energy Production Systems, Medical Devices, Autonomous Vehicles, Smart Cities and NASA’s Kennedy Space Centre Launch System. Considered the technological trends toward data-centricity and the rate of adoption, tomorrow, DDS will be at the at the heart of an incredible number of Industrial IoT systems. To help you become an expert in DDS and exploit your skills in the growing DDS market, we have designed the DDS in Action webcast series. This series is a learning journey through which you will (1) discover the essence of DDS, (2) understand how to effectively exploit DDS to architect and program distributed applications that perform and scale, (3) learn the key DDS programming idioms and architectural patterns, (4) understand how to characterise DDS performances and configure for optimal latency/throughput, (5) grow your system to Internet scale, and (6) secure you DDS system. View the full article
  8. DDS In Action Part II

    Introduced in 2004, the Data Distribution Service (DDS) has been steadily growing in popularity and adoption. Today, DDS is at the heart of a large number of mission and business critical systems, such as, Air Traffic Control and Management, Train Control Systems, Energy Production Systems, Medical Devices, Autonomous Vehicles, Smart Cities and NASA’s Kennedy Space Centre Launch System. Considered the technological trends toward data-centricity and the rate of adoption, tomorrow, DDS will be at the at the heart of an incredible number of Industrial IoT systems. To help you become an expert in DDS and exploit your skills in the growing DDS market, we have designed the DDS in Action webcast series. This series is a learning journey through which you will (1) discover the essence of DDS, (2) understand how to effectively exploit DDS to architect and program distributed applications that perform and scale, (3) learn the key DDS programming idioms and architectural patterns, (4) understand how to characterise DDS performances and configure for optimal latency/throughput, (5) grow your system to Internet scale, and (6) secure you DDS system. View the full article
  9. DDS in Action -- Part I

    Introduced in 2004, the Data Distribution Service (DDS) has been steadily growing in popularity and adoption. Today, DDS is at the heart of a large number of mission and business critical systems, such as, Air Traffic Control and Management, Train Control Systems, Energy Production Systems, Medical Devices, Autonomous Vehicles, Smart Cities and NASA’s Kennedy Space Centre Launch System. Considered the technological trends toward data-centricity and the rate of adoption, tomorrow, DDS will be at the at the heart of an incredible number of Industrial IoT systems. To help you become an expert in DDS and exploit your skills in the growing DDS market, we have designed the DDS in Action webcast series. This series is a learning journey through which you will (1) discover the essence of DDS, (2) understand how to effectively exploit DDS to architect and program distributed applications that perform and scale, (3) learn the key DDS programming idioms and architectural patterns, (4) understand how to characterise DDS performances and configure for optimal latency/throughput, (5) grow your system to Internet scale, and (6) secure you DDS system. View the full article
  10. DDS in Action -- Part I

    Introduced in 2004, the Data Distribution Service (DDS) has been steadily growing in popularity and adoption. Today, DDS is at the heart of a large number of mission and business critical systems, such as, Air Traffic Control and Management, Train Control Systems, Energy Production Systems, Medical Devices, Autonomous Vehicles, Smart Cities and NASA’s Kennedy Space Centre Launch System. Considered the technological trends toward data-centricity and the rate of adoption, tomorrow, DDS will be at the at the heart of an incredible number of Industrial IoT systems. To help you become an expert in DDS and exploit your skills in the growing DDS market, we have designed the DDS in Action webcast series. This series is a learning journey through which you will (1) discover the essence of DDS, (2) understand how to effectively exploit DDS to architect and program distributed applications that perform and scale, (3) learn the key DDS programming idioms and architectural patterns, (4) understand how to characterise DDS performances and configure for optimal latency/throughput, (5) grow your system to Internet scale, and (6) secure you DDS system. View the full article
  11. DDS and OPC UA Explained

    The Object Management Group (OMG) Data Distribution Service (DDS) and the OPC Foundation OLE for Process Control Unified Architecture (OPC-UA) are commonly considered as two of the most relevant technologies for data and information management in the Industrial Internet of Things. Although several articles and quotes on the two technologies have appeared on various medias in the past six months, there is still an incredible confusion on how the two technology compare and what’s their applicability. This presentation, was motivated by the author’s frustration with reading and hearing so many mis-conceptions as well as “apple-to-oranges” comparisons. Thus to contribute to clarity and help with positioning and applicability this webcast will (1) explain the key concepts behind DDS and OPC-UA and relate them with the reason why these technologies were created in the first place, (2) clarify the differences and applicability in IoT for DDS and OPC-UA, and (3) report on the ongoing standardisation activities that are looking at DDS/OPC-UA inter-working. View the full article
  12. DDS and OPC UA Explained

    The Object Management Group (OMG) Data Distribution Service (DDS) and the OPC Foundation OLE for Process Control Unified Architecture (OPC-UA) are commonly considered as two of the most relevant technologies for data and information management in the Industrial Internet of Things. Although several articles and quotes on the two technologies have appeared on various medias in the past six months, there is still an incredible confusion on how the two technology compare and what’s their applicability. This presentation, was motivated by the author’s frustration with reading and hearing so many mis-conceptions as well as “apple-to-oranges” comparisons. Thus to contribute to clarity and help with positioning and applicability this webcast will (1) explain the key concepts behind DDS and OPC-UA and relate them with the reason why these technologies were created in the first place, (2) clarify the differences and applicability in IoT for DDS and OPC-UA, and (3) report on the ongoing standardisation activities that are looking at DDS/OPC-UA inter-working. View the full article
  13. Early Internet of Things(IoT) applications have been build around cloud-centric architectures where information generated at the edge by the “things” in conveyed and processed in a cloud infrastructure. These architectures centralise processing and decision on the data-centre assuming sufficient connectivity, bandwidth and latency. As applications of the Internet of Things extend to industrial and more demanding consumer applications, the assumptions underlying cloud-centric architectures start to be violated as, — for several of these applications — connectivity, bandwidth and latency to the data-centre are a challenge.Fog and Mist computing have emerged as forms of “Cloud Computing” closer to the “Edge” and to the “Things” that should alleviate the connectivity, bandwidth and latency challenges faced by Industrial and extremely demanding Consumer Internet of Things Applications.This presentation, will (1) introduce Cloud, Fog and Mist Computing architectures for the Internet of Things, (2) motivate their need and explain their applicability with real-world use cases, and (3) introduce the concept of fluid IoT architectures and explain how these can be architected and built. View the full article
  14. Early Internet of Things(IoT) applications have been build around cloud-centric architectures where information generated at the edge by the “things” in conveyed and processed in a cloud infrastructure. These architectures centralise processing and decision on the data-centre assuming sufficient connectivity, bandwidth and latency. As applications of the Internet of Things extend to industrial and more demanding consumer applications, the assumptions underlying cloud-centric architectures start to be violated as, — for several of these applications — connectivity, bandwidth and latency to the data-centre are a challenge.Fog and Mist computing have emerged as forms of “Cloud Computing” closer to the “Edge” and to the “Things” that should alleviate the connectivity, bandwidth and latency challenges faced by Industrial and extremely demanding Consumer Internet of Things Applications.This presentation, will (1) introduce Cloud, Fog and Mist Computing architectures for the Internet of Things, (2) motivate their need and explain their applicability with real-world use cases, and (3) introduce the concept of fluid IoT architectures and explain how these can be architected and built. View the full article
  15. Fluid IoT Architectures

    This presentation introduces Fluid IoT Architectures as a way to unify the Cloud, Fog and Mist computing architectures. View the full article
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