Events Calendar

ABB Wins $18 Million Transformer Order From Indian Railways

ABB Wins $18 Million Transformer Order From Indian Railways

ABB has won an order of about $18 million from Indian Railways to supply traction transformers. These transformers are customised for the WAP-7 type electric locomotive, which is a 6000 horsepower strong locomotive capable of hauling 24 coaches at speeds of up to 140 kilometers per hour.

The project is part of the ‘Mission Electrification’ initiative of Indian Railways, which aims to convert an additional 24,000 kilometers of railways from fossil fuels to electrification. The mission also aims to enhance energy efficiency by adopting high quality equipment and facilitating the increased adoption of renewable energy in railway operations.

“We are proud to extend our long-standing relationship with the Indian Railways and contribute to the electrification of the country’s rail network. These transformers have been specially designed to deliver the highest levels of performance and efficiency,” said Laurent Favre, head of ABB’s transformers business, a part of the company’s Power Grids division.

The transformers will be manufactured at ABB’s Vadodara facility in Gujarat.

ABB transformers power about half the world’s electrical locomotives and train sets, and most train manufacturers and rail operators rely on them. ABB’s traction transformers are compact, lightweight and extremely reliable. In addition to traction power solutions, ABB provides a diverse power portfolio for rail and urban transport solutions including static frequency converter stations, power quality systems, ABB Ability network management systems, energy recuperation and energy storage systems, system studies and dynamic traction power supply simulations based on powerful software tools.

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Gartner Forecasts Seven Future Digital Disruptions

Gartner Forecasts Seven Future Digital Disruptions

Gartner, Inc. has revealed seven digital disruptions that organisations may not be prepared for and which CIOs may not foresee coming. These include several categories of disruption, each of which represents a significant potential for new disruptive companies and business models to emerge.

“The single largest challenge facing enterprises and technology providers today is digital disruption,” said Daryl Plummer, Vice President and Gartner Fellow. “The virtual nature of digital disruptions makes them much more difficult to deal with than past technology-triggered disruptions. CIOs must work with their business peers to pre-empt digital disruption by becoming experts at recognising, prioritising and responding to early indicators.”

Quantum Computing

Quantum computing (QC) is a type of nonclassical computing that is based on the quantum state of subatomic particles. Classic computers operate using binary bits where the bit is either 0 or 1, true or false, positive or negative. However, in QC, the bit is referred to as a quantum bit or qubit. Unlike the strictly binary bits of classic computing, qubits can represent 1 or 0 or a superposition of both partly 0 and partly 1 at the same time.

Superposition is what gives quantum computers speed and parallelism, meaning that these computers could theoretically work on millions of computations at once. Further, qubits can be linked with other qubits in a process called entanglement. When combined with superposition, quantum computers could process a massive number of possible outcomes at the same time.

“Today’s data scientists, focused on machine learning (ML), artificial intelligence (AI) and data and analytics, simply cannot address some difficult and complex problems because of the compute limitations of classic computer architectures. Some of these problems could take today’s fastest supercomputers months or even years to run through a series of permutations, making it impractical to attempt,” said Mr. Plummer. “Quantum computers have the potential to run massive amounts of calculations in parallel in seconds. This potential for compute acceleration, as well as the ability to address difficult and complex problems, is what is driving so much interest from CEOs and CIOs in a variety of industries. But we must always be conscious of the hype surrounding the quantum computing model. QC is good for a specific set of problem solutions, not all general-purpose computing.”

Real-Time Language Translation

Real-time language translation could, in effect, fundamentally change communication across the globe. Devices such as translation earbuds and voice and text translation services can perform translation in real-time, breaking down language barriers with friends, family, clients and colleagues. This technology could not only disrupt intercultural language barriers, but also language translators as this role may no longer be needed.

“To prepare for this disruption, CIOs should equip employees in international jobs with experimental real-time translators to pilot streamlined communication,” said Mr. Plummer. “This will help establish multilingual disciplines to help employees work more effectively across languages.”

Nanotechnology

Nanotechnology is science, engineering and technology conducted at the nanoscale — 1 to 100 nanometers. The implications of this technology is that the creation of solutions involve individual atoms and molecules. Nanotech is used to create new effects in materials science, such as self-healing materials. Applications in medicine, electronics, security and manufacturing herald a world of small solutions that fill in the gaps in the macroverse in which we live.

“Nanotechnology is rapidly becoming as common a concept as many others, and yet still remains sparsely understood in its impact to the world at large,” said Mr. Plummer. “When we consider applications that begin to allow things like 3D printing at nanoscale, then it becomes possible to advance the cause of printed organic materials and even human tissue that is generated from individual stem cells. 3D bioprinting has shown promise and nanotech is helping deliver on it.”

Swarm Intelligence

Digital business will stretch conventional management methods past the breaking point. The enterprise will need to make decisions in real time about unpredictable events, based on information from many different sources (such as Internet of Things [IoT] devices) beyond the organization’s control. Humans move too slowly, stand-alone smart machines cost too much, and hyperscale architectures cannot deal with the variability. Swarm intelligence could tackle the mission at a low cost.

Swarm intelligence is the collective behavior of decentralised, self-organised systems, natural or artificial. A swarm consists of small computing elements (either physical entities or software agents) that follow simple rules for coordinating their activities. Such elements can be replicated quickly and inexpensively. Thus, a swarm can be scaled up and down easily as needs change. CIOs should start exploring the concept to scale management, especially in digital business scenarios.

Human-Machine Interfaces

Human-machine interface (HMI) offers solutions providers the opportunity to differentiate with innovative, multimodal experiences. In addition, people living with disabilities benefit from HMIs that are being adapted to their needs, including some already in use within organizations of all types. Technology will give some of these people “superabilities,” spurring people without disabilities to also employ the technology to keep up.

For example, electromyography (EMG) wearables allow current users who would be unable to do so otherwise to use smartphones and computers through the use of sensors that measure muscle activity. Muscular contraction generates electrical signals that can be measured from the skin surface. Sensors may be placed on a single part or multiple parts of the body, as appropriate to the individual. The gestures are in turn interpreted by a HMI linked to another device, such as a PC or smartphone. Wearable devices using myoelectric signals have already hit the consumer market and will continue migrating to devices intended for people with disabilities.

Software Distribution Revolution

Software procurement and acquisition is undergoing a fundamental shift. The way in which software is located, bought and updated is now in the province of the software distribution marketplace. With the continued growth of cloud platforms from Amazon Web Services (AWS), Microsoft, Google, IBM and others, as well as the ever-increasing introduction of cloud-oriented products and services, the role of marketplaces for selling and buying is gathering steam. The cloud platform providers realise (to varying degrees) that they must remove as much friction as possible in the buying and owning processes for both their own offerings and the offerings of their independent software vendors (ISVs) (i.e., partners). ISVs or cloud technology service providers (TSPs) recognise the need to reach large and increasingly diverse buying audiences.

“Establishing one’s own marketplace or participating as a provider in a third-party marketplace is a route to market that is becoming increasingly popular. Distributors and other third parties also see the opportunity to create strong ecosystems (and customer bases) while driving efficiencies for partners and technology service providers,” said Mr. Plummer.

Smartphone Disintermediation

The use of other devices, such as virtual personal assistants (VPAs), smartwatches and other wearables, may mean a shift in how people continue to use the smartphone.

“Smartphones are, today, critical for connections and media consumption. However, over time they will become less visible as they stay in pockets and backpacks. Instead, consumers will use a combination of voice-input and VPA technologies and other wearable devices to navigate a store or public space such as an airport or stadium without walking down the street with their eyes glued to a smartphone screen,” said Mr. Plummer.

CIOs and IT leaders should use wearability of a technology as a guiding principle and investigate and pilot wearable solutions to improve worker effectiveness, increase safety, enhance customer experiences and improve employee satisfaction.

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EuroBLECH 2018: Bystronic Displays “World Class Manufacturing” Innovations

EuroBLECH 2018: Bystronic Displays “World Class Manufacturing” Innovations

In time for EuroBLECH 2018, Bystronic is systematically driving forward the vision of “World Class Manufacturing”. This is based on a comprehensive range of new products and services with which Bystronic is gearing its users’ process landscape towards networked production. “We accompany our customers step by step on the path to the smart factory,” explained Bystronic CEO Alex Waser.

With “World Class Manufacturing”, Bystronic has described the matching supporting programme as one that features innovative solutions that go far beyond the conventional idea of a machine tool. It’s about fusing the individual processes relating to laser cutting and bending into a network of intelligent components, said Mr. Waser. Users can thus achieve a higher degree of flexibility and transparency in their production environment. Both are important prerequisites in order to manufacture products faster, more cost-effectively, and more intelligently than ever before.

In future, thanks to new software solutions, users will be able to create quotes more rapidly, plan their production processes in an efficient manner, and make the best possible use of their resources. Live monitoring systems represent an additional building block. They provide users with real-time information about the running processing steps from their production environment. All this will result in the optimisation of costs and processes. And this in turn, is the prerequisite for growth and sustainable competitive success.

With flexible system solutions, Bystronic is expanding the rules of the game in the field of sheet metal processing. Until now, there was always a trade-off between fast and versatile. In future, users will be able to produce small series or individual mass-produced products at conditions similar to a standardised high-volume series.  As commented by Mr. Waser, “With the new generation of our cutting and bending systems, users can adapt their processes much more easily and thus respond more quickly to their customers’ requirements.”

The integrated automation of production steps is another key success factor. To achieve this, Bystronic uses modular solutions for the material handling in the field of laser cutting. Automation systems that grow with the customers’ requirements and with increasing laser output. In the field of bending, the company is driving forward the development of flexible automation modules that enable fast transitions between automated and manual manufacturing.

Service remains another key issue for Bystronic. Within the networked production environment, network steps are interdependent. This makes process reliability and the preventive maintenance of all integrated systems more critical than ever before. New service solutions help users increase the efficiency and process quality of their production.

Learn more by visiting Bystronic at EuroBLECH 2018 from October 23 to 26, 2018 in Hanover, Germany. Hall 12, Booth B66.

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Advantech & Taipei World Trade Center Collaborate For All-Of-India IoT Goal

Advantech & Taipei World Trade Center Collaborate For All-Of-India IoT Goal

Advantech has announced at the second annual SMART ASIA India Expo & Summit that it would collaborate with the Taipei World Trade Center (TWTC) in its New Delhi Strategy Center, which aims to enhance India’s Industrial and Embedded IoT market. This is Advantech’s fourth strategic location in India, with the other three being its Bangalore headquarters in South India and offices in Pune and Ahmedabad, West India. Event attendees that witnessed the initiation of Advantech’s India Strategic Collaboration with TWTC, included Taipei World Trade Center chairman, James C. F. Huang, Mr. H. D. Kumaraswamy, chief minister of Karnataka, Mr.Mukesh Kalra, joint secretary for international trade from FISME, Taipei Economic and Cultural Center in Chennai director-general, Charles Chao-Cheng Li, Karnataka chief minister, Mr. H. D. Kumaraswamy, Bruhat Bengaluru Mahanagara Palike mayor, Mr. R. Sampath Raj, and FICCI chairman, Shekar Viswanathan, along with over 100 Indian executives, business and media personnel.

India is the world’s second most populous country and sixth largest economic region. In line with prime minister Modi’s goal of doubling economic growth to US$5 trillion by 2025, India has become the rising star of BRICS economies. The International Monetary Fund (IMF) further predicts that India will lead the world in annual economic growth for 2018, with its GDP growth reaching 7.4%. Indeed, punters have speculated that India could overtake the US and China to become the “world’s largest economic region” by as early as 2050.

Advantech’s board director, Chaney Ho, mentioned that since chairman, James C. F. Huang’s, inauguration, his portrayal of India as an “essential of essentials” has been in line with Advantech’s “all-of-India” strategy. He also commented that Advantech has long recognized the great opportunities in India. Strategically targeting India as a key South Asian country, Advantech entered the local market in 2002 by setting up a headquarter in Bangalore, also known as “India’s Silicon Valley”. Since establishing a factory in 2012 and initiating the Make in India movement, Advantech has initiated numerous large infrastructure projects. With this introduction to the market, along with dependable localisation, Advantech has experienced double-digit growth in India.

Miller Chang, President of Advantech Embedded IoT Group also mentioned that on top of the company’s headquarters in Bangalore and local offices in Pune and Ahmedabad, Advantech is also planning to establish a new branch in Kolkata as well. Joining TAITRA’s New Delhi Strategy Center this year not only places Advantech in a good position in North India, but also completes the final stage of the company’s “All-of-India” approach – to have representation in the north, south, east, and western regions of this large sub-continent. Additionally, Advantech hopes to work with TAITRA to engage in co-creating domain focused solutions with local partners from various industries and facilitate the co-creation eco system in India.

Mark Yang, Advantech’s director of embedded IoT group and general manager of inter-continental, pointed out that in order to enhance the local market, Advantech spent years overcoming the multi-lingual, multi-culture, and multi-racial issues in India, before finally obtaining local clients’ approval and support through the establishment of mutual trust and reciprocity. Moreover, Advantech has benevolently contributed to local talent and Indian IoT education by sharing the company’s experience and many intelligent IoT case studies during campus talks at approximately 25 of India’s top IT colleges. As Advantech has always been looking for the “Right People on the Bus,” the company has also developed plans for future scholarships to be offered for the training of local talents train and for the provision of job opportunities in Taiwan.

Mr. Yang firmly believes that with TWTC’s assistance, Advantech will not only growing its share of the Indian IoT market, but will also develop smart manufacturing systems for diverse industries and applications, such as in steel plants, power plants, mines, and automotive plants. Joining TAITRA’s New Delhi Strategy Center also promotes Advantech’s co-creation IoT solution-ready packages (SRPs) with specialised companies within various industries throughout India, thereby accelerating cloud services and application development for smart cities. The newly established New Delhi Strategy Center will also serve as a doorway for Taiwan’s smart manufacturing export, assisting Taiwanese companies in partnering with each other to build industrial ecosystems in India.

Advantech has presented its newest technologies and solutions, including its WISE-PaaS/EnSaaS Cloud Package, Intelligent Retail Solution Platform, Wireless IoT LoRa Gateway,and Intelligent healthcare solutions, at the second annual SMART ASIA India Expo & Summit. Going forward, the company plans to showcase at least 30 software/hardware-integrated IoT SRPs that were co-created with various partners at the upcoming Advantech IoT Co-Creation Summit that will be held in Suzhou, China, on November 1-2.

With TWTC’s assistance, Advantech will not only growing its share of the Indian IoT market, but will also developing smart manufacturing systems for diverse industries and applications.

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Faro CAM2 2018 3D Measurement Software Platform

Faro CAM2 2018 3D Measurement Software Platform

Faro CAM2 2018 software platform enables users to realise the high-level performance with all Faro metrology products across industries, leveraging the full range of hardware features and functionality—through updates for the latest software and patches. It is supported by the company’s customer service and online self-help Faro knowledge base.

Repeat Part Management (RPM) functionality enables easy production implementation, minimum training, and repeatability, once a specific inspection process is designed. The system is resource-efficient, with consistent oversight and quality control of inspection routines for users of diverse skill levels.

An integrated web-based dashboard delivers real-time inspection results and insightful trend analysis in user-friendly, adaptable visual reports. The RPM Control Centre information is shareable across the organisation in real-time, expediting corrective action when required.

Eleven Insights Into The Future Of Manufacturing

Eleven Insights Into The Future Of Manufacturing

From the onset of the industrial revolution to today’s technology driven economy, manufacturing has provided jobs, spurred growth, and enabled consumers to enjoy a higher quality of life. Contributed by Parsec

While many factors affect the strength of manufacturing, it is often these same factors that are a key driving force behind global commerce. While some may think of manufacturing as strictly related to machinery and assembly lines, it is interesting to note that driving productivity and innovation are two of its main contributions.

Increases in productivity without associated increases in costs lead to improved quality of living for many more people around the globe. One could argue that modern day manufacturing is responsible for a significant portion of the innovation in the world—with many of the products and goods the consuming public enjoys being the result of advanced techniques applied to manufacturing.

On The Horizon

Like most businesses, manufacturing is subject to cycles of stagnation and acceleration. Historically, improved manufacturing has led to the growth of the service sector, which in turn has led to a diminished manufacturing base. Regardless, given the important role that manufacturing plays, it would be interesting to look at what we can expect in the next few years.

  • Improved Visibility
    We will have systems and diagnostic tools available to dramatically increase visibility and communications among various components of the manufacturing value stream. Think, Industrial Internet of Things (IIoT).
  • Increased Flexibility
    Market intelligence agency Euromonitor International outlines ten global consumer trends, but chief among them is a demand for more choice and variety. Manufacturers will no longer be able to produce a “one size fits all” product and hope that the buying public will respond. Consumer input will be required, and processes will have to be adaptable in order to quickly respond to changes in demand.
  • Environmental Sensitivities
    Pressures related to climate issues, pollution, and finite natural resources will force manufacturers to increase their environmental mindfulness. More green processes will be developed to operate with less waste and pollution.
  • Higher Quality
    Manufacturers will be pushed to produce higher quality products at lower cost. As the global markets expand, consumers will have more choices and the ability to buy goods that were previously out of their reach. Producers with better products will thrive.
  • Local Sourcing
    As demand for goods proliferates around the world, local sourcing will move into the spotlight. It will matter even more to have local production—especially for products with short shelf lives. Local manufacturing will eliminate many logistics challenges and greatly lower transportation costs.
  • Shift in Labour Resources
    As technology advances, the demand for low-skill production workers will decrease. There will be less need for hands-on labour, but an increase in demand for knowledge workers. Manufacturers will need to plan for a skills transition in their workforce.
  • Smart Manufacturing
    Using better visibility, connected systems, predictive analytics, and more efficient operations will lead to the emergence of smart manufacturing: sensitive to consumer demand, environmentally aware, innovative, adaptable, less susceptible to wild swings, and ultimately more profitable.
  • Streamlined Processes
    The time to research and develop products and bring them to market will decrease even more. Better processes and lowered cost of manufacturing will lead to the availability of higher quality products in the global market—in larger quantities—in ways that were not previously economically viable.
  • Repurposing and Reinventing
    Advanced technology, better insights, and smarter manufacturing processes will lead to rethinking, reinventing, and repurposing existing products for new applications. For example, consider the mobile phone and how its evolution into a smart device has completely altered the computing landscape.
  • More Transparency
    Regulatory requirements will continue to become more stringent while the impact of violation and noncompliance will become prohibitively expensive. However, improved visibility together with enhanced process capability and maturity will make the needed transparency possible—both for internal purposes and regulatory agencies to ensure good manufacturing practices.
  • Increased Competitiveness
    Technology will act as a catalyst to level the playing field. More manufacturers will be able to compete for market share in progressively more sophisticated goods that may currently be out of their reach. This will fuel competitiveness that will drive both innovation and productivity.

Role Of Software In The Future Of Manufacturing

Taking into consideration the expected trends just reviewed, software will play an even more critical role in the future of manufacturing.

To remain relevant manufacturers must be able to get more out of their capital assets. A very effective approach to getting this done is to leverage purpose-designed operations management software. This is already happening at a rapid pace and will only accelerate. Software will be a main component of manufacturing moving forward.

Advances in software will allow manufacturers to be more agile, more flexible, and more competitive. Because information is inherent in this process, manufacturers will rely more on intelligence-based decision making throughout the supply chain—and will be ready to deliver new products more quickly with significantly better life cycle management.

Challenges Ahead

Many of the trends discussed will present challenges to those manufacturers who cannot adapt quickly and maintain the necessary pace to remain relevant. More ubiquitous technologies, larger global markets, and the ever-present appetite for newer and better products will drive manufacturing competitiveness to new heights.

Growth will affect the availability of expert labour pools. Geopolitical events will impact trade balances. Availability of resources will influence regional industrial hubs. Manufacturing activities will inextricably be tied to the necessary services to provide better experiences for the consumers. Environmental and safety regulations will impact the cost of manufactured goods.

A proper mix of human resources, know-how, and technology will be needed to meet the challenges that lie ahead. It is a complex journey where manufacturers need to commit to purposeful innovation and agility to regularly adjust, repurpose, and invent.

 

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Mastercam & Kennametal Announce Partnership For Automated Tooling

Mastercam & Kennametal Announce Partnership For Automated Tooling

Massachusetts, US: The developers of Mastercam, CNC Software, have partnered with Kennametal to provide customers with the ability to import tool assemblies directly into Mastercam 2018. The integration of Kennametal’s software suite Novo allows users to save time searching for desired tools and building 3D tool assemblies that can be brought directly into Mastercam for use.

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