Innovative Automation Control Systems for Sustainable Greenhouse Management Solutions

Maintaining climate condition in any certain type of environment requires management. While many organizations invest heavily on powerful machines and sensors, and facilities to enable climate control; ensuring device coordination, communication and stability can be an added challenge.

Vortex DDS’ robust end-to-end qualities-of-service capability massively help systems to manage and control devices efficiently and in real-time. This simplifies the process of reconfiguring greenhouse controllers so that all sensors are correctly matched with internal data channels.

From monitoring and controlling temperature and soil humidity to simulating certain weather conditions, Vortex DDS provides the data connectivity solution to create a perfectly-controlled atmosphere.

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Why you should choose Vortex

Simplify the complicated. Building your system can be a complicated process. Vortex’s automatic discovery feature helps cut the complexity of system deployment.

Integrate existing system effortlessly. Vortex consists of interoperable technologies that allow the integration and extension of existing system with minimal effort.

Reduce operational cost. Inefficient systems can slow your operation and downtime can cost you even more. Vortex ensures your system is efficient and fault-tolerant, cutting the costs of manual workforce, maintaining its reliability and reducing the chances of costly downtimes.

Accelerate time to market. Vortex is easy to deploy, allowing systems to be built quickly and efficiently. Boosting product development helps reduce time to market, enabling you to stay ahead of the game.

Improve product quality and output rates. One of the major benefits of automation is increase productivity with minimal or no human intervention. Vortex satisfies this requirement by enabling machine intelligence through intelligent data connectivity solution.

Save valuable time. Vortex enables system autonomy, providing you the freedom to focus your time on delivering further innovation for your business.

Next-generation AGV systems to revolutionize the future of factory automation

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The operational complexity of factories means that factors such as maintaining human safety and productivity while keeping high standards for efficiency and quality greatly affects a business‘ overall output and operational cost.

As the future of robotics technology advances, so does its use on factory floors. Automated Guided Vehicles (AGVs) are changing the way factories operate, enabling better product quality and throughput rates. Addressing the issues on human safety, AGVs also reduces the risk of workplace injuries or exposure to potential hazards.

With Vortex DDS providing communication within the vehicle’s system (intravehicle), between vehicles (intervehicle); and between vehicles and the management sytem – only relevant data is delivered in real-time, right where it is needed.

Data Centricity – the volume of data generated from many vehicles and its sensors can be processed based on its data type. The publish and subscribe communication where only the required data is being sent to the relevant subscriber ensures its delivery is in real-time.

Efficiency – Ensuring availability and integrity of data in the event of hardware or software failure, Vortex DDS can process and deliver information at the right place in real-time even in the event of a machine failure.

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PrismTech’s Vortex DDS Showcased at DSEI 2017

Last week saw PrismTech showcase our Data Distribution Service (DDS) demo (see YouTube video above) whilst exhibiting amongst the giants of the world’s defense and aerospace market at DSEI 2017- many of whom are current PrismTech customers. Renowned as the world’s leading event bringing together the global defense and security sector DSEI did not disappoint, with the Excel Exhibition Centre hosting over 1,600 exhibitors and 34,000 visitors across the four days featuring a wide array of Defense and Aerospace applications.

PrismTech’s DDS demo stimulated great interest around the PrismTech booth, leading to many exciting discussions on how DDS could be applied to their own defense use cases. The demo highlighted the process of moving real-time data around network systems using Vortex DDS with land and sea examples.

Another highlight at DSEI was the announcement of Thales Australia selecting Vortex DDS as the data sharing platform for its Integral Computing System (ICS) which has been featured in major defense publications such as; Jane’s 360 and Defence Connect.

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A Defense and Aerospace event of this scale is particularly relevant to PrismTech due the wide adoption of DDS in this industry- for example it is mandated in Vetronics systems with standards such as the Generic Vehicle Architecture (GVA).

To find out more about how Vortex DDS benefits the defense and aerospace industry, click here

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

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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.

 

Reflections on DDS at Undersea Defense Technology (UDT)

I’m writing this blog tonight whilst traveling home from exhibiting at the Undersea Defense Technology (UDT) conference in Bremen, Germany with my PrismTech colleagues Peter Steele and Gregg Shenton.

It’s always good to catch up with the latest innovations and tech in the naval and subsea industry – and of course the major suppliers were all in attendance.  A lot of interesting things were going on.

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UDT is a particularly appropriate event for PrismTech.  We have many customers in this industry, with DDS (the Data Distribution Service) already being widely applied and often even mandated by the standards bodies and organizations.  Our leading DDS implementation, Vortex OpenSplice has many successful naval deployments and a long history in this market.  Many people will know how its early version was initially designed to address the specific problem of moving data around a complex, real time, combat management system.  The middleware aspect was standardized to form the DDS specification, which of course addresses a lot of those problems – namely delivering time critical data to the applications that need it in an efficient, fault tolerant and scalable manner.

The benefits of DDS, though, are perhaps quite abstract, and for non-software developers probably initially difficult to appreciate.  Because of that, we wanted to provide a visual demonstration at the event that would be interesting for the passer-by yet allow them to relate to what the technology can provide.

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We came up with a mini simulation of a combat system whereby data from the raw environment is captured, processed and delivered to where needed for further analysis.  Our demo used a webcam to capture the raw environment – which in real terms could represent a radar, sonar or video system.  The demo then performed some local analysis, in our case some image processing to track specific colours as they move across the camera.  We had some different colored balls that people were encouraged to wave around (or if brave, juggle) in front of the webcam.  These moving colours were tracked, with their positions published into DDS.  We had another computer which subscribed to that data and presented it to a would-be operator on a mocked-up Blue Force Tracking system, i.e. naval symbols on a sea chart.  We were simulating how position and routes of other vessels and obstacles could be tracked within a networked system in real time.  Of course, DDS is even more valuable when you have to deliver the data to potentially hundreds of machines that might exist within a ship or vessel but there is only so much you can show on a stand!  Still, people appreciated the demo and we had some very interesting discussions.

On reflection, those discussions were generally centred around two key areas.  Firstly, how companies can simplify and optimize their own internal data communication systems.  They usually have some existing solution to deliver data around the network but they are often quite legacy and difficult to extend, enhance or deploy to different scenarios.  DDS is great for that purpose.  Secondly, we spoke about easy integration with other vendors in the naval supply chain.  DDS has strong yet evolvable typing that allows for the clear definition of what data is and represents, while also providing an interoperable wire protocol so applications can automatically discover each other and share data with little integration effort.