NASA selects Vortex Suite for SMART National Airspace System

155080main_facet_hrVortex OpenSplice, Cloud and Fog data sharing platforms provide scalability, dynamic discovery, Qualities of Service and tooling capabilities required by system

Vortex OpenSplice, Vortex Cloud and Vortex Fog have been selected by NASA for use in the SMART-NAS (Shadow Mode Assessment Using Realistic Technologies for the National Airspace System) Project.

SMART-NAS is an air traffic management simulation project designed to accelerate the transformation of the National Airspace System, which is one of the most complex systems for controlling commercial, military and general aviation aircraft in the world.  In this effort, SMART-NAS aims to explore and enable plug-and-play alternative concepts, technologies and architectures for deployment in the NAS.

Over the past seven years, NASA has trusted PrismTech’s superior software, service and expertise to meet a variety of program goals.

Vortex platforms were selected by NASA for SMART-NAS after an in-depth evaluation of the various data sharing platform options that are based on the Object Management Group®’s (OMG®) Data-Distribution Service™ (DDS™) standard.  DDS is a proven technology that can meet the stringent performance, availability, safety and robustness criteria imposed by mission-critical, highly distributed and real time systems, such as those found in air traffic control and air traffic management systems. Key to Vortex, however, is its functionality to extend DDS beyond embedded and LAN-based networks out to an intelligent real-time data exchange for Tactical Clouds to enable highly scalable system of systems solutions.

To accelerate the transformation of the entire NAS, proposed functions must be integrated, tested and fully validated before being deployed into NAS.  SMART-NAS aims to examine, in real-time, the robustness, stability and reliability of new approaches to the entire system or any of its parts by taking operational data such as weather conditions, flight plans, airports arrival rates and system constraints – to ensure safe and seamless operations from ground level to outer space.

Vortex optimally addresses the real-time information distribution and management challenges posed by high performance real-time data-processing systems.  Vortex OpenSplice is being used in numerous air traffic control and management systems throughout the world.

Further information about Vortex platforms is available from PrismTech’s website at: http://www.prismtech.com/vortex.

FACE listed Vortex OpenSplice as one of the 3rd-party tools for FACE Applications

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The Future Airborne Capability Environment (FACE) Consortium has added Vortex OpenSplice to its list of third-party tools for FACE applications.

PrismTech recently released its DDS Community Edition v6.7 that comes with a Free Open Source TSS aligned with the FACE Technical Standard that uses DDS as the underlying transport layer and is fully compatible and interoperable with the commercially supported Vortex OpenSplice V6.8

PrismTech’s TSS reference implementation provides a mapping-layer between the FACE Transport Services API and the standard OMG-DDS API. The new TSS implementation supports both C++ and Java Application Programming Interfaces (APIs) and enables portable components to share and exchange data using DDS. PrismTech’s TSS is being made available under GNU lesser General Public License (LGPL) v3 and Apache V2.0 Open Source license terms.

 

What’s new with Open Source DDS Community Edition v6.7 Software

DDS Community v6.7 Mailer Poster

PrismTech recently released its latest version of Open Source DDS Community Edition, the 6.7 version which adds significant new functionality and a new open source licensing model to the DDS Community Edition.

The DDS Community Edition v6.7 is being released to the open source community under the widely adopted Apache license, version 2.0 source code license. Unlike many other code licenses the Apache license places very few restrictions on the use or availability of the code.

Here are the new features included on this release:

  • Durability: Full support for TRANSIENT_LOCAL durability is now offered without relying on each standalone ‘single-process’ application to include a full durability-service (DS).  As typically a DS is run as part of a federation, we have introduced the concept of ‘client-side durability’ where standalone ‘single-process’ applications will transparently obtain historical data from dynamically discovered durability-services (as provided by our commercial OpenSplice version)
  • DCPS API’s: Support for the latest ISOCPP and JAVA5 DCPS language bindings
  • FACE: This release includes a reference implementation of the FACE 2.1 Transport Services Segment (TSS)
  • GPB: Support to use Google Protocol Buffers (GPB) as an alternative to the OMG-IDL definition for topic-types. GPB is a popular technology that supports evolvable data-types and we’ve added annotations for key- and filterable-fields to retain the data-centric features of DDS.

The new release also includes numerous other updates to the code base such as: performance and footprint improvements, bug fixes, robustness and maintainability improvements.

With having Apache license version 2.0 open source license available, this will help reduce the IoT adoption barriers and further accelerate the penetration of DDS in this new and exciting market.

Find out more details on DDS Community v6.7 or click here to download the software.

 

Getting Smarter at the Edge

With over 2 billion people around the world now users of a smartphone, we have more computing power than ever right at our fingertips than ever before. Our cars, houses, factories, cities, etc. are all becoming smarter too. With all of this distributed computing power and applications, we’re producing and consuming vast quantities of data … but are we using this data effectively?

As systems grow in complexity and the number of connected devices/sensors increases, so too does the sheer volume of data produced. That is a lot of (potentially sensitive) data to be sending to the cloud to be analyzed for faults/abnormalities. Then there is the issue of network connectivity: what if the network goes down? What if the latency is too high for the safety/mission/business critical scenario? There are many single points of failure in a cloud-reliant solution. Local computing is therefore still vitally important to many industries, but this data still has value. Aggregating this data at the edge for cloud analysis is one way in which companies can derive massive business benefits without overburdening network communications. This aggregate data can be analyzed for insights, and results deployed back down to the edge.

Automation is an area in which edge computing plays a vital role: when you need an action to be taken immediately should something happen; you require a low-latency instantaneous response. Running edge based analytics enables companies to perform reactive, predictive, and prescriptive actions in real-time with no bandwidth costs or WAN networking issues to worry about. Automating decisions at the edge enables geographically isolated systems to benefit from big-data analytics without requiring high-bandwidth, low-latency connections to the cloud.

Edge computing is enabling many areas of high interest: self-driving cars, factory automation, autonomous drones, predictive maintenance, and the list keeps growing. Unlocking the potential of the ever-growing volume of data being produced means greater efficiency, more effective and timely actions, and valuable insights.

The recently announced Vortex Edge PMQ solution utilizes the power of PrismTech’s Vortex data-connectivity software, ADLINK’s ruggedized industrial hardware, and IBM’s advanced Predictive Maintenance and Quality analytics. Vortex Edge PMQ provides an edge analytics solution designed for Industrial Internet of Things environments where cloud computing access may be limited or otherwise not desired.

For a more detailed look at Vortex Edge PMQ and implementation examples, visit http://www.prismtech.com/vortex/vortex-edge-pmq

PrismTech and RTTS Extend Partnership to Provide Unparalleled Support to Developers of Combat and Battlefield Management Systems in India

DefensePrismTech™, a global leader in software platforms for distributed systems and RTTS (RealTime TechSolutions), a systems integration specialist to defense customers that need extreme levels of performance and reliability, said today they will extend their eight-year partnership. The companies will focus on delivering technology and services that simplify combat management system development and dramatically reduce development time.

RTTS

Over the past eight years, RTTS have developed their engineering, consulting and support teams to a high level of DDS expertise, allowing developers based in India to benefit from first line support in their own time zone.

“RTTS’s team now has over 150+ man years of experience with DDS which makes us unique in India,” said Raj Rajagopolan, Director, RTTS. “I am excited to continue to grow our business with the extension of our partnership with PrismTech.”

The Indian Government are committing to develop many new combat and battlefield management systems. PrismTech and RTTS’s extended partnership will see continued growth in the use of Vortex OpenSplice in these programs.

PrismTech’s Vortex OpenSplice is the leading (commercial and Open Source) implementation of the Object Management Group™’s (OMG™) Data Distribution Service (DDS) for Real-Time Systems standard. Vortex OpenSplice has been designed to optimally address the real-time information distribution and management challenges posed by high performance real-time data-processing systems.

Further information about Vortex OpenSplice is available from PrismTech’s website at: http://www.prismtech.com/vortex.

PrismTech collaborates with other IoT companies in IIC’s Security Claims Evaluation Testbed

IIC Testbed DiagramThe Industrial Internet Consortium® (IIC) announces its first security assessment-focused testbed: the Security Claims Evaluation Testbed. IIC member organizations UL, Xilinx, Aicas and PrismTech are collaborating on the project to provide an open and easily configurable cybersecurity platform for evaluation of endpoint, gateway, and other networked components’ security capabilities. Data sources can include industrial, automotive, medical and other related endpoints requested for secure operation analysis.

“PrismTech develops secure, high performance, real-time end-to-end, data connectivity solutions for the Industrial IoT based on the OMG’s Data Distribution Service for Real-time Systems standard,” said Lawrence Ross, CEO, PrismTech. “Our technology will provide the Security Claims Evaluation Testbed with a flexible and secure Edge to Cloud data backbone that can support a broad range of participants’ security claims assessments.”

To read the full press release, visit iiconsortium.org

Vortex 2.1 is now available

Vortex 2.1 includes the following new functionality:

  • Client side Durability is now supported by both Vortex Lite and Vortex Café. This means that TRANSIENT and PERSISTENT Durability QoS policies can now be used by both Vortex Lite and Vortex Café applications provided that at least one Vortex OpenSplice™ Durability Service is deployed in the same system.

  • Vortex Lite now includes support for extensible data models based on Google Protocol Buffers (GPB). GPB is a language-neutral, platform-neutral extensible mechanism for serializing structured data developed by Google. The benefit of using GPBs is that they are extensible and can be updated without breaking programs that are compiled against “older” data structure definitions. This ability enables systems and their data models to evolve dynamically without major application re-engineering. GPB support in Vortex Lite is currently available for the ISO C++ API. GPB support is already available in Vortex OpenSplice (Java, C and ISO C++) and will be available shortly in Vortex Café.

  • Vortex OpenSplice also includes a number of new features, including:

    • It is now possible to detach from all domains. A new operation has been added to the DomainParticipantFactory in the DDS API that allows you to detach your application safely from all Domains it is participating in with one single call.

    • The naming of DomainParticipant, Publisher, Subscriber, DataWriter and DataReader entities has been improved. When visualized with one of the Vortex tools (Insight, Tuner or Tester) the improved naming makes it easier for users to relate entities to their applications.

    • A new section called “Controls” has been introduced to Vortex OpenSplice Launcher. This section contains buttons to easily start and stop an OpenSplice domain based on the active ospl config file in Launcher. When the user clicks on the start/stop button, a progress bar is displayed in the bottom tool bar to indicate that Launcher is processing the request. When Launcher has completed the operation, notification pop-up messages are displayed indicating the result of the requested operation.

    • Windows 10 is now supported.

“This new version of the Vortex platform highlights how we have significantly accelerated our new product development following our recent acquisition by ADLINK Technology,” said Angelo Corsaro, CTO, PrismTech.  “We look forward to delivering many new extremely innovative IoT products to our global customer base in the coming months.”