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MWC: VMware moves to edge computing

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VMware has unveiled an Internet of Things (IoT) strategy to deliver new edge computing solutions for specific use cases, such as Asset Management and Smart Surveillance at this year’s Mobile World Congress.

At Mobile World Congress in Barcelona this week, VMware unveiled an Internet of Things (IoT) strategy to deliver new edge computing solutions for specific use cases, such as Asset Management and Smart Surveillance. These edge solutions will feature VMware vSAN hyper-converged infrastructure (HCI) software, VMware vSphere and VMware Pulse IoT Center, and will be developed in collaboration with industry-leading partners.

VMware sees unique requirements and environments at the edge and will address them through use case specific solutions spanning:

  • Industrial remote IoT use cases such as oil well optimisation, utility grids, and smart city use cases where the things reside in ruggedised, disparate, outdoor and often times, remote locations with inconsistent network and power;
  • Factory and plants in support of closed networks, ruggedised indoor environments; and,
  • Branches and in-stores in support of unique space and power requirements and coordinated across many stores.

IoT introduces a new wrinkle in today’s centralised data center/cloud model. A new class of cost-effective edge infrastructure is required to process data inputs from millions or even billions of IoT endpoints that are separated from the core data center or the public cloud by bandwidth. This new infrastructure must be simple to manage as there are no IT specialists at the edge; cost-effective as the volume of edge installations is large; and, scalable to allow edge installations to grow over time.

“By 2022, as a result of digital business projects, 75% of enterprise-generated data will be created and processed outside the traditional, centralised data center or cloud, which is an increase from less than today’s 10%,” according to Gartner. (1) Local analytics offer faster response times, reduced storage costs, and an optimum use of bandwidth while also supporting data privacy and compliance requirements.

VMware to Deliver HCI Solutions for the Edge

HCI and VMware Pulse IoT Center are ideally suited to process and secure sensor data that bridges the physical and digital worlds. VMware is working on providing more efficient and more secure IoT infrastructure that is easy to manage, scale, and update so customers can accelerate IoT initiatives and realise ROI faster. Based on the leading hyper-converged solution, these edge solutions will feature real-time analytics in support of IoT initiatives where customers will have the choice of licensing third-party business analytics starter kits, in partnership with industry leaders, to help with content analytics and drive business decisions.

VMware offers a full ecosystem of server hardware for Edge infrastructure or gateway solutions depending on use case needs, environment, and desired rugged ability. These new solutions include VMware Pulse IoT Center for management, monitoring, and security of all edge systems/gateways and connected devices such as sensors and the appropriate management and security solution to support compute and storage infrastructure and applications across the edge.

VMware to Collaborate with Axis Communications and Dell EMC for Smart Surveillance Solution

VMware and Axis Communications are collaborating on an IoT solution for the surveillance industry. The solution will feature Axis Communications’ state of the art surveillance capabilities including IP cameras as well as 4G/LTE routers which can be deployed to protect properties, stores, and employees. With VMware Pulse IoT Center, customers will have a way to manage, monitor, and secure their Axis Communications cameras and routers. Initially, the solution will be available on a choice of Dell EMC servers and include the option of Dell Edge Gateways. Additionally, VMware is working with financial services organisations to develop the modern bank of the future using surveillance to optimise security and the customer experience.

VMware, Dell Technologies and Wipro Limited Team Up on IoT Solution for Manufacturers and Asset Management Services 

VMware and Wipro Limited, a leading global information technology, consulting and business process services company, are working together to offer manufacturers a complete edge to cloud IoT solution. The benefits of improved efficiency and productivity of machinery and other assets across the shop floor have the potential to contribute significant returns to manufacturers. Featuring Wipro’s IoT offerings, including its Looking Glass asset management platform and services capability, the solution will integrate multiple IoT platforms which are either hosted on-premises or in the cloud. By connecting their IoT environment to their data centers, customers will benefit from deeper analytics and machine learning. Wipro will also be one of the first system integrators to provide installation and management services for VMware’s IoT Edge solutions.

Manufacturers can use Wipro’s IoT Platform and analytics capabilities for real-time data processing and for predictive failure analytics for devices and equipment on the manufacturing floor. VMware Pulse IoT Center helps manage, monitor, and secure assets and data in facilities as well as the edge infrastructure. By combining Wipro’s complete IoT Platform and analytics capabilities with VMware’s Pulse IoT Center, customers have access to a complete and seamless solution.

VMware Supports Edge Computing Research

VMware, in conjunction with the National Science Foundation (NSF), has announced a new solicitation on Edge Computing Data Infrastructure for research that advances the state of the art in end-to-end networked systems architecture that includes edge infrastructures. VMware will fund two awards valued at a total of $6 million for U.S. university faculty members. Additional information is available here.

Supporting Quotes

“Building an edge computing solution today is a time-intensive exercise most enterprises can’t afford. Today, VMware unveils hyper-converged edge computing solutions that are cost-effective and will enable customers to build and scale secure, use case-specific IoT solutions that work for them from the edge all the way to the cloud, relying on proven, tested software they already use and trust. Together with ecosystem partners Axis, Wipro Limited and Dell EMC, we’re excited to deliver the first of many tailored solutions to meet the unique IoT needs of our enterprise customers,” said Ray O’Farrell, executive vice president & chief technology officer, VMware.

“With the convergence of IT and security top of mind for the industry, we’re excited to collaborate with VMware on an IoT solution for the surveillance industry,” said Scott Dunn, senior director, Business Development Solutions & Services, Axis Communications, Inc. “This collaboration will give us an outstanding opportunity to deliver a better experience for our mutual customers by providing a leading edge IoT platform and management solution.”

“Our partnership with VMware and Dell Technologies complements our end-to-end IoT solutions and enables us to realise business outcomes for our customers,” said Jayraj Nair, vice president and global head of IoT, Wipro Limited. “Asset management, smart manufacturing, logistics and supply chain solutions enabled by IoT technologies are ushering in new levels of operational efficiency for our global clients.”

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Earth 2050: memory chips for kids, telepathy for adults

An astonishing set of predictions for the next 30 years includes a major challenge to the privacy of our thoughts.

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Buy 2050, most kids may be fitted with the latest memory boosting implants, and adults will have replaced mobile devices with direct connectivity through brain implants, powered by thought.

These are some of the more dramatic forecasts in Earth 2050, an award-winning, interactive multimedia project that accumulates predictions about social and technological developments for the upcoming 30 years. The aim is to identify global challenges for humanity and possible ways of solving these challenges. The website was launched in 2017 to mark Kaspersky Lab’s 20th birthday. It comprises a rich variety of predictions and future scenarios, covering a wide range of topics.

Recently a number of new contributions have been added to the site. Among them Lord Martin Rees, the UK’s Astronomer Royal, Professor at Cambridge University and former President of the Royal Society; investor and entrepreneur Steven Hoffman, Peter Tatchell, human rights campaigner, along withDmitry Galov, security researcher and Alexey Malanov, malware analyst at Kaspersky Lab.

The new visions for 2050 consider, among other things:

  • The replacement of mobile devices with direct connectivity through brain implants, powered by thought – able to upload skills and knowledge in return – and the impact of this on individual consciousness and privacy of thought.
  • The ability to transform all life at the genetic level through gene editing.
  • The potential impact of mistakes made by advanced machine-learning systems/AI.
  • The demise of current political systems and the rise of ‘citizen governments’, where ordinary people are co-opted to approve legislation.
  • The end of the techno-industrial age as the world runs out of fossil fuels, leading to economic and environmental devastation.
  • The end of industrial-scale meat production, as most people become vegan and meat is cultured from biopsies taken from living, outdoor reared livestock.

The hypothetical prediction for 2050 from Dmitry Galov, security researcher at Kaspersky Lab is as follows: “By 2050, our knowledge of how the brain works, and our ability to enhance or repair it is so advanced that being able to remember everything and learn new things at an outrageous speed has become commonplace. Most kids are fitted with the latest memory boosting implants to support their learning and this makes education easier than it has ever been. 

“Brain damage as a result of head injury is easily repaired; memory loss is no longer a medical condition, and people suffering from mental illnesses, such as depression, are quickly cured.  The technologies that underpin this have existed in some form since the late 2010s. Memory implants are in fact a natural progression from the connected deep brain stimulation implants of 2018.

“But every technology has another side – a dark side. In 2050, the medical, social and economic impact of memory boosting implants are significant, but they are also vulnerable to exploitation and cyber-abuse. New threats that have appeared in the last decade include the mass manipulation of groups through implanted or erased memories of political events or conflicts, and even the creation of ‘human botnets’. 

“These botnets connect people’s brains into a network of agents controlled and operated by cybercriminals, without the knowledge of the victims themselves.  Repurposed cyberthreats from previous decades are targeting the memories of world leaders for cyber-espionage, as well as those of celebrities, ordinary people and businesses with the aim of memory theft, deletion of or ‘locking’ of memories (for example, in return for a ransom).  

“This landscape is only possible because, in the late 2010s when the technologies began to evolve, the potential future security vulnerabilities were not considered a priority, and the various players: healthcare, security, policy makers and more, didn’t come together to understand and address future risks.”

For more information and the full suite of inspirational and thought-provoking predictions, visit Earth 2050.

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Pizoelectrics: Healthcare’s new gymnasts of gadgetry

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Healthcare electronics is rapidly deploying for wellness, electroceuticals, and intrusive medical procedures, among other, powered by new technologies. Much of it is trending to diagnostics and treatment on the move, and removing the need for the patient to perform procedures on time. 

Instruments become wearables, including electronic skin patches and implants. The IDTechEx Research report, “Piezoelectric Harvesting and Sensing for Healthcare 2019-2029”, notes that sensors should preferably be self-powered, non-poisonous even on disposal, and many need to be biocompatible and even biodegradable. 

We need to detect biology, vibration, force, acceleration, stress and linear movement and do imaging. Devices must reject bacteria and be useful in wearables and Internet of Things nodes. Preferably we must move to one device performing multiple tasks. 

So is there a gymnast material category that has that awesome versatility? 

Piezoelectrics has a good claim. It measures all those parameters. That even includes biosensors where the piezo senses the swelling of a biomolecule recognizing a target analyte. The most important form of self-powered (one material, two functions) piezo sensing is ultrasound imaging, a market growing at 5.1% yearly. 

The IDTechEx Research report looks at what comes next, based on global travel and interviewing by its PhD level analysts in 2018 with continuous updates.  

Click here to read how Piezo has been reinvented.

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