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How Do You Future-Proof Electric Vehicle Connectivity?

When you design your next-generation electric vehicle (EV) architecture, there’s a strong drive to create something that will last for at least 10-20 years. For that, you need to understand the market, make an educated guess on what’s going to be needed in the near (and not so near) future, and hope everything goes as expected. But what if the market changes? What if unexpected events take development off course? Will you be able to shift gears and get your system back on the right track?

Being prepared for the unexpected is what makes us evolve, and the connectivity that supports your EV development efforts should follow the same rule. In safety-critical systems, you need to design your connectivity so that new functionality can be added without affecting the current system. Even in naturally static systems such as certified vehicles, choosing the right connectivity technology gives you the ability to adapt to change and stay ahead of the curve as requirements evolve.

In this webinar, we will review some of the key attributes of a next-generation electrical and electronic vehicle architecture that is well prepared to meet tomorrow’s needs:

- Flexible architecture to adapt to changing requirements
- Extensible data model to accept new functionality
- Security as needed depending on your connectivity needs
- Easy integration with backend and existing technologies
Recorded Jun 30 2020 60 mins
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Presented by
Sara Granados Cabeza, PhD., Principal Field Application Engineer, RTI
Presentation preview: How Do You Future-Proof Electric Vehicle Connectivity?

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  • Channel
  • Channel profile
  • Enabling Flexible Vehicle Architectures through AUTOSAR and DDS Apr 8 2021 3:00 pm UTC 60 mins
    Kai Richter, ITK and Emilio Guijarro Cameros, RTI
    In the race to build next-generation vehicles, OEMs need to look beyond the traditional automotive architectures. The traditional design of electrical and electronic architecture doesn’t work for the connected digital vehicles of tomorrow. Instead, a software-driven approach is required, in order to deliver a data-centric approach that accommodates interconnected system-of-systems and provides flexibility and scalability.

    AUTOSAR and Data Distribution ServiceTM (DDS) are two open software standards that were designed for flexible, scalable architectures. AUTOSAR is the standardized automotive open system architecture designed for automotive Electronic Control Units (ECUs). The AUTOSAR Adaptive Platform addresses the design challenges of in-vehicle high-performance compute. DDS provides a data-centric connectivity framework that puts data at the center of mobile digital platforms. It provides low-latency data connectivity, extreme reliability, and a scalable, flexible architecture that fosters the development of a loosely coupled, modular system.
    Now, these powerful standards work together to enable interoperability and advanced functionality for the industry. In this one-hour webinar by the authors in the new white paper on the topic, learn how AUTOSAR and DDS can provide automotive manufacturers with an integrated, high-performance approach to designing and evolving and servicing next-generation automotive systems.

    This webinar will cover:
    - AUTOSAR Classic and Adaptive principles
    - Overview of the Data Distribution Standard
    - Advantages of combining AUTOSAR and DDS
    - Combined technical architecture
    - Industry Case Study
    - Audience Q&A
  • GVA and DDS: A Roadmap for Building Future Land Vehicle Platforms Mar 30 2021 1:00 pm UTC 60 mins
    Paul Tingey, FAE Regional Manager
    In parts 1 and 2 of this series, we explored Generic Vehicle Architecture (GVA) in detail, including its aims, operational benefits and why the Data Distribution Service™ (DDS) standard provides a proven underlying communications technology for it. We also focused on the data model (referred to as the Land Data Model) and how it can use some of the newer features available in DDS to help vehicle manufacturers conquer new horizons.

    In our third episode, we’ll travel further down the road to tomorrow as we highlight important new and upcoming features of DDS. Specifically, we’ll explore how these features are poised to guide and enable the future evolution of the GVA standard and GVA-enabled vehicles. The key factors are:

    - DDS Security: We will explore how it is currently implemented in DDS, as well as how that implementation could be used in the future to achieve and enforce next-level security in GVA vehicles.
    - Time-Sensitive Networking (TSN): The combination of DDS and TSN is of great interest going forward, as it can offer network-level deterministic connectivity (over standard ethernet) with the added benefit of software-level control via DDS Quality of Service (QoS) policies.
    - Autonomy: Today, DDS is being used by a myriad of customers who are building autonomous systems. We’ll explore how the design principles of next-generation autonomous systems can easily be applied to GVA and GVA-connected systems in the future.
  • On the High Speed Data Line: Accelerating the Evolution of Rail Transportation Mar 18 2021 4:00 pm UTC 60 mins
    Patrick Keliher, Regional FAE Manager (RTI) and Maxx Becker, Field Application Engineer (RTI)
    How do you take a century-old Rail Network and modernize it to comply with next-generation rail projects - all while ensuring that the design will stand up to the unknown demands of the next century? Data is what powers today’s rail transportation systems. The modern data infrastructure needs to support fully autonomous trains and signalling systems, and do so at a lower risk and lower cost than the system being replaced.

    If you’re a stakeholder in a next-generation rail project, join us on March 18 for a webinar on data connectivity in high-speed transportation environments. From positive train control, to train system digitization projects to system safety and security, you will learn how a data-centric architecture provides a flexible, scalable approach to streamlining high-speed communications in real time. RTI Connext® is a proven technology in rail transportation, enabling lower risk, faster time to market, and more cost-effective complex system development. Our March 18 webinar is designed to help you stay on the right track for success.

    This webinar will cover:
    - Best practice approach to rapid modernization of subsystems, with integration with legacy subsystems
    - An overview of the data-centric architecture to modernize data flow through a flexible and scalable architecture design to support edge to cloud communications
    - Case studies from green field to brown field implementations
    - Q&A session
  • Every Asset At Your Site, Working As One Recorded: Feb 25 2021 59 mins
    Bob Galbreath and Ross Gilson
    As a stakeholder in a next generation mining and construction equipment network, are you concerned with maintaining your competitive advantage? Are you building intelligent vehicles or machinery that will operate autonomously or semi-autonomously now or in the future? Does this equipment need to work safely by itself and alongside human operators?

    Learn how RTI Connext® DDS adds value to today’s complex mining and construction environments:
    - Providing fast, scalable, reliable and secure connectivity for autonomous, semi-autonomous and tele-operations systems and equipment
    - Enabling real-time data exchange and seamless interoperability for improved decision-making and reliable remote monitoring
    - Integrating multiple components in a future-proof architecture ready for different autonomy levels and changing requirements
    - Reducing labor costs and equipment downtime in distant and dangerous locations via reliable WAN communications

    Join us for a 50 minute webinar presentation about Connext DDS and a product demonstration to learn from experts how secure communications networks enable optimized real-time, data-based decisions in the Mining and Construction Industry.

    Leverage a next generation communication standard to achieve data management and strategic goals.
  • Achieving the Communication Requirements of RADAR Systems with Connext DDS Recorded: Feb 18 2021 59 mins
    Mark Swick, RTI Systems Architect
    Radar systems must be designed to keep up with a rapidly changing threat environment, adapt to new technologies, and reflect the realities of leaner development budgets. In this webinar, learn why radar systems developers are employing data-centric architectures implemented with standards-based communications technologies to meet these challenging requirements.

    The webinar will elaborate on concepts that are widely used for constructing scalable, open radar systems:

    - Leveraging modular, data-oriented design patterns to implement radar services. Radars, and sensors in general, share common architectural and design patterns. This lends itself to the use, and re-use, of common components, or services across multiple sensor implementations.

    - Open, language-independent data models and protocols enable reusability and reduce life-cycle costs. Implementation of common services using open-systems architecture precepts expands the choices for system integrators in constructing radar and sensor systems. This approach allows the selection of best-in-class components in the initial development phase while enabling cost-effective replacement of end-of-life components, avoiding major redesign over the system lifecycle.

    - The combination of data-centric architectures, open data models, and proven open standards-based communication infrastructure for radar and other sensor systems offer greatly-improved flexibility, reduced risk, and lower life cycle costs.
  • Inside DDS: Scaling to a “system-of-systems” with RTI Connext Recorded: Jan 28 2021 59 mins
    Maxx Becker & Thijs Brouwer - Field Application Engineers at RTI
    When creating a “system of systems”, many face challenges in integrating mixed-criticality components, such as connecting different devices in an ICU or managing a fleet of vehicles from a control center. Some of these challenges include transformation of data, supporting disparate platforms and securing vital data communications. In our previous session, we focused on the benefits of RTI ConnextⓇ DDS when building a distributed system. In this webinar, we will explore how Connext tools can help reduce development time and cost, and accelerate the process of building and integrating these systems. We will also showcase a few tools to help accelerate successful integration.
  • Inside DDS: Building real-time distributed systems with RTI Connext Recorded: Jan 21 2021 57 mins
    Maxx Becker & Thijs Brouwer - Field Application Engineers at RTI
    Are you building a next-gen real-time distributed system? Have you ever wondered how others manage complexity and scalability for such systems? When it comes to real-time connectivity, RTI Connext® DDS provides a number of important advantages. Connext software has a proven track record of providing reliable communications for mission- and safety-critical systems. This webinar will introduce you to the key aspects of discovery-based Publish-and-Subscribe communication, how to manage different data flows with reliable Quality of Service and how RTI’s software and tools enable customer success around the globe.
  • Designing NGVA Systems for Real-Time Data Flow with DDS and TSN Recorded: Jan 20 2021 55 mins
    Fernando Garcia, Principal Software Engineer, RTI & Alicia Alonso, Business Development Manager, SoC-e
    For a new generation of military vehicles, the NATO Generic Vehicle Architecture (NGVA) provides a highly reliable approach to platform design and integration. But to take it to the next level and achieve important new strategic imperatives such as optimizing ground missions, NGVA systems demand a key capability: continuous access to new, real-time data that can also be delivered over remote, long-distant terrain.

    Two software standards play an important role in enabling real-time data flows in the NGVA vehicle architecture. Firstly, Data Distribution ServiceTM (DDS) sits close to the application and provides an open framework to enable determinism, reliability, scalability and availability. The second part of the solution is Time-Sensitive Networking (TSN), which offers a lower-level network technology enabling deterministic messaging over standard Ethernet. Together, they provide standard data models that enable deterministic communications in NGVA systems using commercially-available technologies. The result is a simplified network structure that creates significant performance improvement by enforcing real-time Quality of Service (QoS) for critical traffic flows.

    Join RTI and SoC-e to learn how DDS and TSN work in NGVA architectures in a fast-paced, 30-minute webinar with Q&A. We’ll review key aspects of NGVA, including:
    - Why DDS and TSN improve communication in NGVA systems
    - How these standards process data
    - How each standard is applied to NGVA environments
    - How it all works together: An NGVA-DDS-TSN case study
    - How to get started: Attendee Q&A
  • Keep your Vehicle Deployment On Course - Masterclass with UEI, Mathworks and RTI Recorded: Dec 4 2020 43 mins
    Chris Hallinan (UEI), Shwetha Bhadravathi (Mathworks), Dan King (RTI)
    Joint Master Class with RTI and Mathworks. Getting your vehicle off the ground can be challenging and fraught with complexity, no matter if it is a helicopter, jet, or rocket.

    In this UEI Master Class, engineers from UEI, Mathworks, and Real-Time Innovations (RTI) discuss how Model-Based design is transforming the way engineers and scientists plan, build, and test their systems.

    Highlights include:
    - Overview of Model-Based design using: the Mathworks Simulink and Embedded Coder®, RTI’s Connext® DDS and UEI Rugged Deployable Hardware
    - Demo of modeling and code generation for helicopter control systems
    - Hardware deployment options for verification and flight
    - Data sharing and distribution solutions
  • High-Stakes Robotics: Moving from the ROS 2 Lab to Production & Deployment Recorded: Nov 19 2020 51 mins
    Neil Puthuff- Senior Software Integration Engineer
    With ROS 2, the task of creating a working robotic system is simplified. By using supported hardware and commodity hardware, a robot can be assembled that can sense, map and navigate its surroundings in a short period of time, freeing the development team to focus on building their unique value into that system.

    Moving this system into production and real-world deployment brings a wide spectrum of requirements, including working with hostile networking, safety certification, hardware and RTOS support, performance tuning, scalability, security, resiliency and more. When robotics are deployed in high-stakes environments where failure can be catastrophic, there are even more requirements to be built in to ensure no-fail performance. When lives and futures are on the line, using field-proven technology is the smartest choice. To meet these rigorous requirements, industry experts rely upon the seamless integration between ROS 2 components and RTI’s field-proven technology - Connext® DDS.

    Join RTI in a one-hour interactive Tech Talk to learn about the connectivity software used in more than 200 mission-critical robotics and autonomous vehicle programs. RTI connects the ROS 2 ecosystem of robotics-focused tools and packages with the comprehensive Connext® DDS ecosystem of diagnostic tools, integrations and connectivity with related standards (AUTOSAR, FACE, OPC/UA).
  • Inside DDS: Connext DDS Tools Demo Recorded: Nov 17 2020 68 mins
    Frank Gates, Field Applications Engineer, RTI
    If you’re new to DDS, you may be excited about the big picture, high-level capabilities it offers. But you may be missing out on the nuances of understanding how to use it in an expert fashion to optimize your project. Using the right tool for the job can cut a huge chunk out of your development time and cost – and ensure your project is set up for optimal performance when it goes live. Join this webinar to learn about the Connext Tools product suite and how organizations are using them to increase productivity and results in their distributed application.
  • Inside DDS: Introducing Connext DDS Communication Software Recorded: Nov 10 2020 63 mins
    Frank Gates, Field Applications Engineer, RTI
    Have you ever wondered how complex computing systems communicate? When it comes to connectivity between unique systems, RTI's Connext DDS is the leading provider of DDS communication software. RTI's Connext DDS has a proven track record of success to ensure that these connected systems stay connected where human lives are at stake. This complimentary webinar compares DDS to traditional socket based network communication. It will introduce, publish and subscribe communication with QoS, which are the core features of Connext DDS.
  • Autonomy Beyond The Car Recorded: Sep 30 2020 30 mins
    Dr. Stan Schneider, CEO, Real-Time Innovations (RTI)
    Robocars will make life better and more efficient. But autonomous vehicles (AVs) that do everything drivers can do are still years or even decades away. And since operation with nobody in the car is critical for economic viability, we need a way to help the AV with “corner cases”. The best way to enable AVs sooner is to use human operators to suggest strategies when the vehicle gets stuck. That requires vehicle fleets to have control rooms. This session will examine the potential and challenge of practical teleoperation, including combining assistance strategies, control-center design, cloud computing, and 5G connectivity. It will also consider the architecture required to connect in-vehicle control and remote oversight. These systems should not be designed independently. AVs need a consistent architecture for the vehicle, control center, and cloud.
  • Efficiency in Overdrive: How to Analyze DDS Traffic Using Wireshark, Part 6 of 6 Recorded: Sep 24 2020 62 mins
    Mike Partington - Principal Application Engineer, RTI
    With its rich searching, visualization, and protocol interpretation capabilities, Wireshark is a popular tool for analyzing network communications in a Data Distribution Service (DDS) environment. In this session, we'll show how to use Wireshark for several analysis activities, including measuring performance, determining whether a system is working as expected and debugging different types of communication issues. Whether you are new to the Real Time Publish Subscribe (RTPS) wire protocol or a seasoned veteran, this is a perfect chance to pick up new techniques that can help you put productivity and efficiency into overdrive.

    In this Tech Talk, you’ll learn how to:
    - Use filtering to see only the packets of interest
    - Deserialize and view individual topic data
    - Diagnose common communication problems
    - Visualize traffic to measure performance and look for patterns
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  • GVA & DDS: Leveraging Important Features in the Evolving Open Standards for DDS Recorded: Sep 22 2020 51 mins
    Paul Tingey, Senior Field Application Engineer, RTI
    Building on Part 1 in this series, this session provides a deeper view into some of the fundamental building blocks of Data Distribution ServiceTM (DDS) and how they relate to the Generic Vehicle Architecture (GVA).

    One of the significant advantages of DDS for GVA is that it is an open standard. The fundamental operation of DDS is non-proprietary, and it is designed to ensure interconnectivity between different implementations and systems. These core principles of DDS align perfectly with the purposes for which the UK Ministry of Defence (MoD) first developed the GVA standard.

    An additional benefit of the DDS open standard is that it is continuously evolving. This could be challenging, yet GVA has shown itself to be ready to evolve to leverage important features from newly-released DDS-related standards from the Object Management Group (OMG).

    In this webinar, we will discuss some of the features of DDS that are of critical importance to GVA. We will also explore some of the newer features introduced in the latest versions of the OMG specifications that govern DDS.

    This webinar will include discussions on::
    - Quality of Service: How it is defined, and how it is used in GVA
    - Interface Description Language (IDL) overview
    - Datatypes: How they are defined in DDS, and the importance of the latest changes to the OMG specifications to the Land Data Model
  • Inside DDS: Connext DDS Tools Demo Recorded: Sep 17 2020 58 mins
    Vinh Du, Field Applications Engineer, RTI
    If you’re new to DDS, you may be excited about the big picture, high-level capabilities it offers. But you may be missing out on the nuances of understanding how to use it in an expert fashion to optimize your project. Using the right tool for the job can cut a huge chunk out of your development time and cost – and ensure your project is set up for optimal performance when it goes live. Join this webinar to learn about the Connext Tools product suite and how organizations are using them to increase productivity and results in their distributed application.
  • Inside DDS: Introducing Connext DDS Communication Software Recorded: Sep 10 2020 43 mins
    Vinh Du, Field Applications Engineer, RTI
    Have you ever wondered how complex computing systems communicate? When it comes to connectivity between unique systems, RTI's Connext DDS is the leading provider of DDS communication software. RTI's Connext DDS has a proven track record of success to ensure that these connected systems stay connected where human lives are at stake. This complimentary webinar compares DDS to traditional socket based network communication. It will introduce, publish and subscribe communication with QoS, which are the core features of Connext DDS.
  • RTI Tools: Quickly Solve Configuration Errors in Distributed Systems Part 5 of 6 Recorded: Aug 27 2020 61 mins
    Ken Brophy - Principal Applications Engineer, RTI
    It’s no secret that managing, visualizing and optimizing a complex distributed system can be a major challenge. And for those still doing it manually, debugging applications alone can swallow days or weeks of valuable time. There is a better way: RTI has a suite of versatile, integrated tools that can help with these tasks. And our Admin Console can even automatically check for request/offered Quality of Service (QoS) issues. This webinar will provide a guided tour of the many tools RTI provides that can help you avoid configuration issues, inspect live data streams, generate code, set detailed QoS policies and monitor network connectivity. This high-level overview will present a variety of use cases that map to real-world scenarios from customers across the globe.

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    - The capability to automatically find and solve configuration errors in distributed systems
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    - The breadth of tools RTI has available, all which are included in one integrated offering
  • Using Connext DDS to Achieve Data-oriented Microservice Integration, Part 4 of 6 Recorded: Jul 30 2020 61 mins
    Bob Galbreath and Christopher Carson
    Today, many agile software organizations are increasingly adopting application microservice architectures to accelerate product delivery. This RTI Tech Talk session presents a data-oriented approach to microservice integration. Using RTI Connext DDS, which is based on the popular Data Distribution ServiceTM (DDS) standard, system and software designers can institute and easily share communication interfaces with reliable transport of time sensitive data.
    RTI Connext DDS provides its users with a rich set of Quality of Service (QoS) features such as time- and content-filtering and application redundancy, as well as the enforcement of data deadlines, history and persistence. Developers using RTI Connext DDS can eliminate many of the complexities of application collaboration, because these capabilities are configurable as part of the Connext DDS core. Join us to learn how:
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    and fault tolerance.
    - Connext DDS microservice applications map to deployment artifacts.
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  • How Do You Future-Proof Electric Vehicle Connectivity? Recorded: Jun 30 2020 60 mins
    Sara Granados Cabeza, PhD., Principal Field Application Engineer, RTI
    When you design your next-generation electric vehicle (EV) architecture, there’s a strong drive to create something that will last for at least 10-20 years. For that, you need to understand the market, make an educated guess on what’s going to be needed in the near (and not so near) future, and hope everything goes as expected. But what if the market changes? What if unexpected events take development off course? Will you be able to shift gears and get your system back on the right track?

    Being prepared for the unexpected is what makes us evolve, and the connectivity that supports your EV development efforts should follow the same rule. In safety-critical systems, you need to design your connectivity so that new functionality can be added without affecting the current system. Even in naturally static systems such as certified vehicles, choosing the right connectivity technology gives you the ability to adapt to change and stay ahead of the curve as requirements evolve.

    In this webinar, we will review some of the key attributes of a next-generation electrical and electronic vehicle architecture that is well prepared to meet tomorrow’s needs:

    - Flexible architecture to adapt to changing requirements
    - Extensible data model to accept new functionality
    - Security as needed depending on your connectivity needs
    - Easy integration with backend and existing technologies
Delivering data when and where you need it
Enabling intelligent architecture by sharing information in real time, RTI makes large applications work together as one. With over 1,500 designs, across different industries RTI is the largest software framework company for autonomous systems. Learn more: rti.com

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  • Live at: Jun 30 2020 1:00 pm
  • Presented by: Sara Granados Cabeza, PhD., Principal Field Application Engineer, RTI
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