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Category Archives: Robotics
ROBOTICS TECHNOLOGY MARKET INSIGHTS BY GROWTH, EMERGING TRENDS AND FORECAST BY 2027 The Daily Chronicle – The Daily Chronicle
Posted: August 13, 2020 at 1:35 am
The Global Robotics Technology Market report draws precise insights by examining the latest and prospective industry trends and helping readers recognize the products and services that are boosting revenue growth and profitability. The study performs a detailed analysis of all the significant factors, including drivers, constraints, threats, challenges, prospects, and industry-specific trends, impacting the market on a global and regional scale. Additionally, the report cites worldwide market scenario along with competitive landscape of leading participants.
Click To get Sample Copy of Report @ https://www.premiummarketinsights.com/sample/TIP00029127
Leading Players in the Robotics Technology Market: ABB Ltd, Denso Corporation, Fanuc Corporation, Kawasaki Robotics (Kawasaki Heavy Industries, Ltd.), KUKA AG, Mitsubishi Electric Corporation, OMRON Corporation, Seiko Epson Corporation, Stubli International AG, Yaskawa Electric Corporation
The Robotics Technology market analysis is intended to provide all participants and vendors with pertinent specifics about growth aspects, roadblocks, threats, and lucrative business opportunities that the market is anticipated to reveal in the coming years. This intelligence study also encompasses the revenue share, market size, market potential, and rate of consumption to draw insights pertaining to the rivalry to gain control of a large portion of the market share.
Competitive landscape:
The Robotics Technology Industry is extremely competitive and consolidated because of the existence of several established companies that are adopting different marketing strategies to increase their market share. The vendors engaged in the sector are outlined based on their geographic reach, financial performance, strategic moves, and product portfolio. The vendors are gradually widening their strategic moves, along with customer interaction.
Robotics Technology Market Segmented by Region/Country: US, Europe, China, Japan, Middle East & Africa, India, Central & South America
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Dounreay explores decommissioning with robotics experts – GOV.UK – GOV.UK
Posted: at 1:35 am
The nuclear site in the north of Scotland, which was the centre of the UKs research into fast reactor technology in the last century, is being cleaned up and taken apart. The most contaminated areas of the site are found in the Fuel Cycle Area (FCA) facilities, which examined and reprocessed spent nuclear fuel. The nature of the facilities means that the most contaminated areas are generally also the most inaccessible.
The site is collaborating with the Robotics and Artificial Intelligence in Nuclear (RAIN) Hub, a consortium of universities led by the University of Manchester, to explore ways to overcome some of these challenges.
A group of scientists from RAIN carried out trials earlier this year in the FCA laboratories of a small remotely operated vehicle (ROV) equipped with sensors, cameras and a manipulator arm, which provided useful information.
Jason Simpson, project manager for the decommissioning of the laboratories, said:
The legacy of the operations in our labs is that we have areas of contamination that are very radioactive and difficult to access using our normal procedures. These decommissioning challenges could be addressed using robotics and we are pleased to be working with the RAIN Hub to find solutions.
A survey of the under-floor drains in the laboratories is planned for later in the year.
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Dounreay explores decommissioning with robotics experts - GOV.UK - GOV.UK
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Special Report: Robots Drive the Manufacturing Revolution – Automation World
Posted: at 1:35 am
The T5 pick-and-place delta robot from Gerhard Schubert GmbH features a fifth axis that allows for high performance in small spaces.
In 2019, a business intelligence report, Robotics, Innovation 2 Implementation, from PMMI, the Association for Packaging and Processing Technologies, proclaimed, Robotics is no longer just a tool, it is a force in the industry driving a revolution of change in manufacturing. This change has become increasingly vital for packagers, who are facing massive shifts in consumer buying behavior and changing market conditionschanges that in some cases have rapidly accelerated as a result of the COVID-19 pandemic.
Packagers grappling with mass customization, a shortage of labor (particularly skilled labor), more rigorous food safety standards, greater competition, and the quickening pace of e-commerce, are turning to robots to address these challenges. And robotics suppliers are responding, with innovations in hygienic features, vision systems, and ease of programming, as well as more palatable price points and greater flexibility.
While innovations overlap in terms of robot types, applications, and features, most of the drivers remain the same: less reliance on manual operations; greater productivity, efficiency, and flexibility; and reduced costs.
See all articles contained in Packaging Worlds 2020 Robotics Special Report:
Case Packer for Croutons Saves Dough on Corrugated
Specialty food products manufacturer installs a robotic case packer for croutons that can keep pace with the rest of the packaging line, while saving costs on shelf-ready packaging, as well.
Mass Customization Demands Flexibility
A growing omnichannel environment requires that CPGs have the flexibility to produce a range of package sizes and styles. Automation provides that capability.
Vision for the Future
New vision systems for robotics, including 2D and 3D machine vision, enable broader packaging applications.
Big Data is the New Currency
New software systems for robotics collect and analyze data to increase OEE, protect against cyberattacks, and predict failures.
Food-Safe Solutions Emerge
New opportunities for the direct and indirect handling of foods emerge as manufacturers begin developing robots for handling unpacked goods.
Addressing Labor Shortages can Help Feed the World
Robot manufacturer develops a system to alleviate the lack of labor in the nut industry that can sort nuts at the final stage of the conditioning process.
Cobots Continue to Advance
According to a PMMI robot report, cobots accounted for about 3% of all robot sales in North America in 2017; by 2025, that number is expected to increase to 34%.
E-Commerce Requires new Solutions
New robot technology addresses the specific needs of e-commerce packaging, including mixed pallet loads, labor challenges, and the use of a range of secondary packaging formats.
Vision Enables Tube Picking/Placing at 160/min
A new SCARA robotic cell developed for the collation of cosmetic tubes uses vision software and specially designed end-of-arm tooling.
Cobot-Placed Top Sheets Protect Frozen Foods
The installation of 12 robotic palletizers for frozen food products necessitates the addition of two cobot cap-sheet placers to keep the cases free from dust.
Making Sense of ANSI R15.06 and ANSI B155.1
To determine the right standards approach for your organization, its helpful to understand how standards are structured, which responsibilities and requirements are associated with the standards, and ISO restrictions.
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Special Report: Robots Drive the Manufacturing Revolution - Automation World
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Dexterity Inc. Introduces Intelligent Robots for Warehouse Automation that Pick, Move, Pack and Collaborate – Supply and Demand Chain Executive
Posted: at 1:35 am
Dexterity announced the availability of its full-stack, hardware-agnostic robotic systems. Dexterity robots allow customers to unlock the maximum value of their workforce. Its robots automate repetitive pick-pack tasks and can handle complex manipulations in unpredictable environments, allowing warehouse employees to focus on higher-level cognitive work. The robots utilize artificial intelligence, advanced control theory, computer vision, and the sense of touch to adapt quickly, making them safe to work alongside humans. Initial customers include Kawasaki Heavy Industries, a global food manufacturer and distributor, and a worldwide package delivery provider.
Dexterity simplifies automation deployments by managing the entire process for customers, from end-to-end system design and engineering to deployments with operational guarantees. Unlike existing robotics providers, Dexterity robots are adaptable, mobile and collaborative. They are presently picking more than 200 unique items in production with 99.5% accuracy, and reliably pick a wide variety of novel objects including plastic bags, glass, perishables, and low-profile items.
Transcending other systems in the market, Dexterity robots can move, pack items using the sense of touch, and work collaboratively with one another. For instance, two robots can collaborate to pick trays or crates, and even collaboratively move them across the work-area if required. Finally, the robots operate safely in concert with humans and maximize human productivity.
While robots are the backbone of manufacturing, they have historically lacked the ability to adapt and operate in dynamic environments like warehouses, said Dexterity founder and CEO Samir Menon. Dexteritys intelligent robots constantly adapt to warehouse operations and do the tedious and strenuous tasks, which maximizes productivity by enabling humans to focus on meaningful work.
Founded in 2017, Dexteritys technical approach has Menons Ph.D. thesis in Robotics from Stanford University at heart. Menon worked on a control theory framework to describe how the human brain controls and coordinates the body, which serves as a model to distill human skill into mathematical programs that control robots in a graceful human-like manner.
Dexterity is exiting stealth with deep customer relationships, and a fleet of intelligent and collaborative robots in production. In todays world, with a pandemic raging, Dexterity is grateful to have an opportunity to serve the community as an essential business that, among other things, has shipped more than half a million units of packaged food.
To date, Dexterity has raised $56.2 million, including venture investments and debt from Kleiner Perkins, Lightspeed Venture Partners, Obvious Ventures, Pacific West Bank, B37 Ventures, Presidio (Sumitomo) Ventures, Blackhorn Ventures, Liquid 2 Ventures, and Stanford StartX.
Technically, Dexteritys robotic solution can do what their predecessors could not. Their robots ability to learn as it picks, packs, and places novel objects is unsurpassed, said Wen Hsieh, partner at Kleiner Perkins. Dexterity also stands out because of their high-touch approach with customers, which includes gaining a deep understanding of customers needs, and then offering a Robots-as-a-Service offering. This unique pricing model allows Dexterity to deploy quickly and effectively, which results in an immediate performance and financial impact on customers warehouse operations.
Dexterity is one of the very few companies in the world which has almost an unlimited market opportunity," said Raviraj Jain, partner at Lightspeed Venture Partners. "When I first met Samir, I immediately knew he had the technical chops, the drive, and the vision to do something exceptional. In the short 2.5 years, Samir has assembled an exceptional team of some of the best and the brightest in robotics, built a strong tech stack that is generalizable, and delivered significant customer value. We're excited to have partnered with Dexterity from day one and look forward to an exciting journey ahead.
Dexterity develops its robots with a full-stack approach, combining both software and hardware. To support high performance and adaptability with safe human-robot interaction, its robots have capabilities like touch perception, computer vision, force control, and contextual awareness.
Dexterity partners closely with customers to design systems and controls that match their individual needs and products, performing tasks such as fulfillment, kitting, sortation, singulation, palletization, and depalletization. Its platform is highly modular - rather than being coded to perform one specific task, robots can be deployed anywhere on any warehouse use case, with grippers or suction cups to suit objects being handled, 3D camera systems to track items, and general machine learning models trained to identify arbitrary unknown objects. By working with Dexterity robots, operators have become 47% more productive, and that improvement is growing over time as the robots learn and are more tightly integrate into local operations. Dexterity robots can also work safely alongside or independently of humans and have the ability to comply and respond to human movement and interference.
Dexteritys artificial intelligence, computer vision, and stacking design technology was what really stood out to us. Samir provides a clear vision for the future of our robotic applications and gives us confidence that with this partnership, we can easily deploy our robots in a variety of ways, said Toshihiko M., Manager, Robotics Business Center, Kawasaki Heavy Industries, Ltd.
The warehousing industry urgently needs automation to do the tedious, laborious, and unsafe tasks that make it difficult to recruit and retain staff. While supply chains continue to expand at a rapid pace driven by growth in e-commerce, interest in jobs that are repetitive and even dangerous continues to decline. This trend has been further complicated by COVID-19 -- increased volume, an exacerbated labor shortage due to health concerns, and the inability to guarantee safety for workers without heavily disrupting operations has amplified the need for automation.
Robots have been widely used in manufacturing, but they traditionally lack intelligence so they could only be deployed for precise pre-programmed tasks think welding in auto manufacturing where the welds are in the same place for every car. Dexterity enables human-like intelligence and dexterity to unlock a larger set of tasks in supply chain environments that have been previously unsolved by traditional robotics solutions.
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Carnegie Mellon Teams Up With YKK AP to Develop Window-Installing Robots – DWM Magazine
Posted: at 1:35 am
As labor shortages hang over the construction industry, builders and contractors ponder how they might use the latest technologies to replace human functions. Five years ago, around 20% of builders reported they had begun to tinker with technologies like drones and 3D printers. Since then, robots have surfaced doing everything from installing studs, drywall and tile to laying bricks at a rate of 1,000 per hour. Now, engineers at Carnegie Mellon University are taking aim at a new purpose for robotics: installing windows. In July, the university announced that in collaboration with YKK AP Inc. and under the leadership of Kenji Shimada, the Theodore Ahrens Professor of Engineering in the Department of Mechanical Engineering, a team of experts in its Computational Engineering and Robotics Laboratory are working on the project.
Shimada, whose research centers on computer modeling and simulation for product design, analysis and manufacturing, says his teams goals include creating a robot that can install windows, more efficiently than any human could. At the same time, he admits that the undertaking, is a pretty difficult task, because the window has to be perfectly vertical and aligned to the dimension described in the architectural drawing. Even for expert installers the process, might take 15 or 20 minutes to just put one window in the right position and orientation, Shimada says. Nonetheless, his group is designing and building a robot with the goal of automating and cutting the task down to five minutes.
Regarding the question for whether or not robots will ever be capable of fully replacing human labor for window installation, Shimada suggests, In parts of the world, jobs in window installation are understated and it is a dangerous job by nature. Many people, especially young people, are not interested in working in the dangerous fields of construction, and this robot allows for more efficiency and safety in the industry. At the same time, while the momentum of robotics development has taken decades to reach fenestration, there are indications that the construction industries are heading toward such options.
For as much as 60 years now, robotic technologies have been utilized in manufacturing and by 1990 studies began pondering the feasibility for their use on construction sites. Five years ago, experts pointed to the falling cost for robotics as an inevitable sign that the technology would grow more prevalent is constructionsome suggesting that by 2025 builders would cash in on 16% savings on labor costs, by replacing human employees with robots. In a report published last year by Omdia | Tractica, the research firm estimated that more than 7,000 robot assistants, infrastructure robots, structure robots and finishing robots will be deployed for construction by 2025.
Regarding how soon Shimada and his team might be able to deliver on a window-installing robot is unclear, but the labs other projects indicate the process could be incremental. In addition to robotics, his team is also collaborating with YKK AP on a 3D sensor designed to make measuring and scaling for windows easier by using high-end laser scanners. When aimed at a wall, scanners will produce millions of measurable pointsa tool that might make some professional installers set aside their tape measures.
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Carnegie Mellon Teams Up With YKK AP to Develop Window-Installing Robots - DWM Magazine
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From warehouse to pavement, the robots are coming – Essential Retail
Posted: at 1:35 am
If we cast our minds back to 2019, pre-coronavirus, consumers had the choice to shop across multiple channels including physical stores, social media, online marketplaces, pop-up stores, online, or in apps to mention but a few the list of options was extensive.
As options for buying goods disappeared during lockdown, not only did eCommerce boom, the creative use of technology - such as robots - has also come to the fore and were increasingly seeing more robots being deployed into the wider supply chain network, whereas previously they may have been limited to the warehouse or distribution centre environments.
Just look at the transformation of last mile delivery recently, allowing supermarkets to get orders to consumers without compromising the health or safety of either their staff or customers.
The question is: as robotics and automation moves beyond warehouses and distribution centres (DCs) as part of more distributed supply chain networks, are brands ready to embrace these developments and how can they best navigate these technology challenges?
Robotics in the supply chain
The use of robotics and automation technology in warehouses or DCs certainly isnt new. Retailers across the world have been perfecting the balance of man (and woman) and machine for some time to boost efficiencies, reduce errors and make this particular part of the supply chain seamless.
In fact, the use of robotics has grown exponentially over time, from the first debut of this technology in the automobile plant industry. Today, a wide range of laboratories, factories, hospitals, energy plants, warehouses and other industries are reliant on automation and robotics.
Now, as warehouses and DCs still battle the changes bought by the pandemic, they need to instil flexibility and scalability and reduce their dependence on unreliable or temporary labour pools to meet their operational requirements. Implementing automation and robotics is the perfect way to do this.
With the use of robotics and automated processes within DCs and warehouses, retailers can process eCommerce orders far more swiftly and safely, rather than relying purely on manual pickers. By strategically implementing robotics and automation, supply chains can work around the clock without having to delay deliveries, while still delivering on promises made to customers.
However, it is important to note that whilst robotics and automation provide an abundance of benefits, this must be complemented with human employees to perform certain tasks that robots are simply not yet able to do. Quite simply, man (and woman) and machine must work in harmony.
Robotics beyond the warehouse
Move further along the supply chain to delivery and the use of robotics is quite different, with last mile delivery having been transformed in the last five years.
Understanding the benefits of robotics and automation technology within the warehouse, many retailers are now starting to consider how this technology can be used both within their stores and beyond. In particular, robots have been used in recent months as a completely contactless-free delivery method to ensure local communities and vulnerable people are still able to get goods delivered to their door.
Certainly, at the moment, eliminating human employees and focusing on machines in some areas, is one way to keep consumers and employees safe and it has given retailers a vision of what the future of delivery might look like. But this is not a sustainable method for retailers across the entire supply chain and retailers must recognise that a human touch is still required.
Robotics in the future
Covid-19 has accelerated questions around the use of automation and robotics and has highlighted how it is applicable to existing businesses models, with much success in the grocery sector and last-mile delivery. As some parts of the UK are able to see normality creeping back in, it will be interesting to see what other sectors, and which other parts of the supply chain, adopt further robotics and automation technology.
However, as technology becomes more sophisticated and consumer habits and business practices transform, only time will tell how important a role robotics and automation will come to play in warehouses and supply chains of the future.
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From warehouse to pavement, the robots are coming - Essential Retail
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Software – The Next Generation of Vehicle Architecture – Robotics Tomorrow
Posted: at 1:35 am
The role of automotive software has changed profoundly in recent years. Software is now being used and is relied upon for critical operations that were previously being performed by hardware.
Software - The Next Generation of Vehicle Architecture
Q&A with Grant Courville, VP, Products and Strategy | BlackBerry QNX
As Vice President, Products and Strategy at BlackBerry QNX, Im responsible for managing the companys global product portfolio and strategy for the automotive and general embedded markets. I have upwards of 25 years of experience in the embedded industry and am a frequent speaker on connected and autonomous car technology and trends at conferences around the world. In my 20+ years with QNX, Ive held a variety of leadership roles in engineering, marketing and services. I also serve as a member of the Advisory Board for the Ontario Center of Excellence Autonomous Vehicle Innovation Network (OCE AVIN), the Invest Ottawa Global Expansion committee and the Ottawa L5 steering committee among others.
The role of automotive software has changed profoundly in recent years. Software is now being used and is relied upon for critical operations that were previously being performed by hardware. The complexity of the software and the functions it performs continues to grow and our customers rely on our software and services to help them build these complex critical systems.
One only needs to look at the average instrument cluster of a new mid-market car to see this in action. Responsible for relaying important information to the driver, the architecture of the cluster has fundamentally changed. Physical gauges and warning lights have been digitally replaced by software to perform the same functions. Our engineers were faced with the challenge of building software that ensures the cluster is displaying correct information in real-time, while adhering to the ISO 26262 functional safety standard. The challenge in this case is further augmented by the fact that the instrument cluster also makes use of GPU suppliers software, which is quite complex and not designed with functional safety certification in mind. In this example, we designed and developed an integrated software platform for instrument clusters with an ISO 26262 certified graphics monitor and integrated it with our QNX safety certified operating system.
We are seeing functional safety requirements in more and more automotive systems. The good news is that BlackBerry QNX has a very strong pedigree in building safe and secure software for mission critical, safety critical and life critical embedded systems. This pedigree 100% applies to the ISO 26262 functional safety certification requirements in automotive and as a result, we have invested significantly in this area and offer many safety certified products including our QNX operating system, hypervisor, graphics monitor, communications software, development tools and other middleware.
The automotive industry is undergoing a digital transformation. While the bulk of a cars value was traditionally comprised of its mechanical, hardware, and other physical components, software and connected services are quickly becoming the most important drivers of value, and a key differentiator, for automobile manufacturers. The next generation vehicle architecture has evolved from being hardware-driven to software-defined. Software is now quite literally in the drivers seat, steering the car industry and redirecting the way its been organized since those halcyon days of Henry Ford who famously remarked that customers could have any color car they wanted as long as it was black. Speaking of Ford, were now seeing leading automakers like Ford on record saying they need to think more like a software company in order to thrive within the future of the industry.
Beyond the growing importance of software, what we see is the car moving to more of a software platform that can support a broader ecosystem and car-centric applications. This is why you are seeing so many acquisitions, alliances and new entrants in the automotive industry than ever before. The car will become a software platform where monetization of ADAS features, suspension features, engine features and other valued added services is enabled and that's a huge opportunity. The car is becoming a mobile platform that will present new, non-traditional business opportunities for automakers and many others.
With BlackBerry currently powering more than 175 million cars on the road today, were well on our way to achieving that same level of ubiquity and widespread use within the global automotive market. The connected car market is set for some serious momentum over the next few years with demand for all of the associated technologies think internet access, new digital cockpit systems, Over-The-Air software delivery, advanced safety functions, and other advanced technology-based features rising at a significant pace. The worlds leading automakers, their Tier 1 suppliers, chip manufacturers and new startups continue to put their trust in BlackBerry and our ability to provide them with the safety-certified and secure software on which they can build the next generation of cars. I am most certainly counting on further cementing our already well established leadership role within the automotive supply chain.
In 1998, after undertaking an exhaustive operating system selection process, we were proud to have been selected by Delphi as the operating system platform for their next generation infotainment systems. They realized that infotainment systems would likely become one of the most complex and software-rich systems in the car and they were absolutely right! Delphi was our first automotive customer.
Since that time, our software has been deployed across multiple in-car systems in millions of vehicles and as mentioned, our software has been selected as the foundation for next generation vehicles. In terms of milestones, I am proud to say that we have had many customer, partner and product announcements over the years. At the end of the day, its our customers, valued partners and the market at large that drive our strategy, our investments and the decisions we make. Our achievements are a result of that.
Of the publicly announced milestones and achievements some of the ones that come to mind are our recent announcement about how BlackBerrys QNX Software is in more than 175 million vehicles on the road today and the Government of Canadas $40 million investment in BlackBerry QNX to accelerate our development of safe and secure software for the next generation vehicles. We have also had many companies endorse us publicly such as automakers (Aston Martin, Audi, BMW, Byton, Ford, General Motors, Honda, Hyundai, Jaguar Land Rover, Karma, KIA, Maserati, Mercedes-Benz, Porsche, Toyota, and Volkswagen to name a few. Additionally, we have many other partner and customer announcements with companies such as DENSO, Harman, LGe, Intel, NXP, NVIDIA, Panasonic, Qualcomm, Renesas, and Texas Instruments. Of course, as we continued to execute on our strategy, we have announced significant product achievements related to ADAS, Acoustics, V2X SCMS, our operating system, hypervisor, digital cockpit, instrument clusters, infotainment and our product certifications related safety (ISO 26262, IEC 61508) and security.
BlackBerry has a broad portfolio of products and services to protect vehicles against cybersecurity attacks. We also have a broad portfolio of functional safety-certified software including our QNX operating system, hypervisor, development tools and middleware for autonomous and connected vehicles. Our software has been deployed in critical embedded systems for over three decades and has been certified to the highest level of automotive certification for functional safety with ISO 26262 ASIL D. As a company, we are investing significantly to broaden our safety and security product and services portfolio. Simply put, this is what our customers demand and rely on from us a safe, secure and reliable software platform.
Currently, our safety-certified, secure foundational automotive software is used by over 45 automakers and in more than 175 million vehicles on the road today. For well over 3 decades, BlackBerry QNX technology has powered many of the worlds most mission-critical embedded systems including nuclear power plants, industrial controllers, surgical robots and class III life-critical medical devices; the types of systems that are required to operate safely, securely and reliably, 24 hours a day, 365 days a year, without failure.
As it pertains to security, we firmly believe that security cannot be an afterthought. For automakers and the entire automotive supply chain, security should be inherent in the entire product lifecycle. As part of our ongoing commitment to security, we published a 7-Pillar Cybersecurity Recommendation to share our insight and expertise on this topic. In addition to our safety-certified and secure operating system and hypervisor, BlackBerry provides a host of security products such as managed PKI, FIPS 140-2 certified toolkits, key inject tools, binary code static analysis tools, security credential management systems (SCMS), and secure Over-The-Air (OTA) Software Update technology. The worlds leading automakers, tier ones, and chip manufacturers continue to seek out BlackBerrys safety-certified and highly-secure software for their next-generation vehicles. Together with our customers we will help to ensure that the future of mobility is safe, secure and built on trust.
As a company, we are taking a broader look at the entire transportation industry. Examining the next-generation connected, automated and autonomous vehicles, its clear that building consumer trust when it comes to safety is just as important as building the technology. For the general public to accept and ultimately adopt automated and autonomous vehicles, there needs to be trust in the technologies, trust in their advantages and of course, trust that the companies building them (and profiting off of them) will act responsibly. As you have likely heard from us before, we believe its a moral imperative for those of us within the industry that are advancing this fast approaching future to make sure it is both safe and secure.
In support of this, we are working to set industry standards and taking an active role in defining with that future of mobility looks like. We are participating in a number of industry standards efforts and have joined a number of automotive industry associations in the past number of months, such as the Automotive Information Sharing and Analysis Center (Auto-ISAC).
Aside from further entrenching ourselves as the premiere foundational software platform for next generation vehicles, we are also helping to accelerate the development of Smart Cities and Intelligent Transportation Systems via our Security Credential Management System (SCMS).
Autonomous vehicles, in particular self-driving cars, have certainly been generating a great deal of attention in the market over the past few years. The technology has many potential benefits for individuals, the environment and the economy. However, despite the market hype regarding fully autonomous vehicles for consumers being only a few years away, we know that we all have much more work to do to make the technology safe, secure and reliable. This is why we have consistently said that fully autonomous vehicles, also known as Level 5 vehicles, operating anywhere, anytime, anyplace, are a few decades away and you are now starting to see other industry leaders echo these timeframes as well.
As I said earlier, as the technology and regulations evolve, building consumer trust when it comes to safety is just as important as building the technology. For the general public to accept and ultimately adopt autonomous vehicles, there needs to be trust in the technologies, trust in their benefits and of course, trust that the companies building them will act responsibly.
Additionally, considerable effort must be put in by the private and public sectors in defining safety regulations and policies. The various levels of government need to continue to work with industry leaders to ensure that proper regulations and policies are introduced to facilitate adoption while not stifling investment and innovation. Safety must be the number one priority for autonomous vehicles.
Getting to full Level 5 autonomy where an autonomous driven vehicle can take you and your passengers anywhere, anytime and anyplace is not right around the corner and its going to take some time to get there. Likely decades. Solving the really hard problems like how a car operates in extreme weather scenarios or unfamiliar situations is going to take quite a while so I dont anticipate that were going to see autonomous vehicles in every driveway anytime soon.
AboutGrant CourvilleAs Vice President, Products and Strategy at BlackBerry QNX, BlackBerry, Grant is responsible for managing the companys global product portfolio and strategy for the automotive and general embedded markets. Grant has over 25 years of experience in the embedded industry and is a recognized leader and spokesperson for connected and autonomous car technology and trends. In his 20+ years with QNX, he has held a variety of leadership roles in engineering, marketing and services. Grant also serves as a member of the Advisory Board for the Ontario Center of Excellence Autonomous Vehicle Innovation Network (OCE AVIN), the Invest Ottawa Global Expansion committee and the Ottawa L5 steering committee among others.
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The industry's first comprehensive Robot Integrator Program saves robot integrators significant time and cost investments by allowing them to mark each cell compliant with ANSI/RIA R15.06 with the TUV Rheinland Mark. As opposed to a traditional certification or an on-site field labeling, TV Rheinland's Robot Integrator Program certifies the knowledge and skill-set of robot integrators in addition to testing robotic cells and processes against ANSI/RIA R15.06. This reduces the need for frequent onsite or off site testing and allows manufacturers to apply a single TV Rheinland label to multiple cells. The Robot Integrator Program individually assesses a robot integrator's understanding of the ANSI/RIA R15.06 standard along with the ability to consistently produce compliant robot cells. Following the requirements and procedures of the new program will enable robot integrators to produce individually compliant robotic cells under one serialized TV Rheinland Mark, which meets the national electric code and allows acceptance by Authorities Having Jurisdiction (AHJ) and end users.
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Software - The Next Generation of Vehicle Architecture - Robotics Tomorrow
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Dexterity, Inc. Introduces Intelligent Robots for Warehouse Automation that Pick, Move, Pack and Collaborate – Business Wire
Posted: July 21, 2020 at 12:41 pm
REDWOOD CITY, Calif.--(BUSINESS WIRE)--Dexterity, creators of intelligent robots with human-like dexterity for logistics, warehousing, and supply chain, today announced the availability of its full-stack, hardware-agnostic robotic systems. Dexterity robots allow customers to unlock the maximum value of their workforce. Its robots automate repetitive pick-pack tasks and can handle complex manipulations in unpredictable environments, allowing warehouse employees to focus on higher-level cognitive work. The robots utilize artificial intelligence, advanced control theory, computer vision, and the sense of touch to adapt quickly, making them safe to work alongside humans. Initial customers include Kawasaki Heavy Industries, a global food manufacturer and distributor, and a worldwide package delivery provider.
Dexterity simplifies automation deployments by managing the entire process for customers, from end-to-end system design and engineering to deployments with operational guarantees. Unlike existing robotics providers, Dexterity robots are adaptable, mobile and collaborative. They are presently picking more than 200 unique items in production with 99.5% accuracy, and reliably pick a wide variety of novel objects including plastic bags, glass, perishables, and low-profile items.
Transcending other systems in the market, Dexterity robots can move, pack items using the sense of touch, and work collaboratively with one another. For instance, two robots can collaborate to pick trays or crates, and even collaboratively move them across the work-area if required. Finally, the robots operate safely in concert with humans and maximize human productivity.
While robots are the backbone of manufacturing, they have historically lacked the ability to adapt and operate in dynamic environments like warehouses, said Dexterity founder and CEO Samir Menon. Dexteritys intelligent robots constantly adapt to warehouse operations and do the tedious and strenuous tasks, which maximizes productivity by enabling humans to focus on meaningful work.
Founded in 2017, Dexteritys technical approach has Menons Ph.D. thesis in Robotics from Stanford University at heart. Menon worked on a control theory framework to describe how the human brain controls and coordinates the body, which serves as a model to distill human skill into mathematical programs that control robots in a graceful human-like manner.
Dexterity is exiting stealth with deep customer relationships, and a fleet of intelligent and collaborative robots in production. In todays world, with a pandemic raging, Dexterity is grateful to have an opportunity to serve the community as an essential business that, among other things, has shipped more than half a million units of packaged food.
To date, Dexterity has raised $56.2 million, including venture investments and debt from Kleiner Perkins, Lightspeed Venture Partners, Obvious Ventures, Pacific West Bank, B37 Ventures, Presidio (Sumitomo) Ventures, Blackhorn Ventures, Liquid 2 Ventures, and Stanford StartX.
Technically, Dexteritys robotic solution can do what their predecessors could not. Their robots ability to learn as it picks, packs, and places novel objects is unsurpassed, said Wen Hsieh, partner at Kleiner Perkins. Dexterity also stands out because of their high-touch approach with customers, which includes gaining a deep understanding of customers needs, and then offering a Robots-as-a-Service offering. This unique pricing model allows Dexterity to deploy quickly and effectively, which results in an immediate performance and financial impact on customers warehouse operations.
Dexterity is one of the very few companies in the world which has almost an unlimited market opportunity," said Raviraj Jain, partner at Lightspeed Venture Partners. "When I first met Samir, I immediately knew he had the technical chops, the drive, and the vision to do something exceptional. In the short 2.5 years, Samir has assembled an exceptional team of some of the best and the brightest in robotics, built a strong tech stack that is generalizable, and delivered significant customer value. We're excited to have partnered with Dexterity from day one and look forward to an exciting journey ahead.
Dexterity Full Stack Approach
Dexterity develops its robots with a full-stack approach, combining both software and hardware. To support high performance and adaptability with safe human-robot interaction, its robots have capabilities like touch perception, computer vision, force control, and contextual awareness.
Dexterity partners closely with customers to design systems and controls that match their individual needs and products, performing tasks such as fulfillment, kitting, sortation, singulation, palletization, and depalletization. Its platform is highly modular - rather than being coded to perform one specific task, robots can be deployed anywhere on any warehouse use case, with grippers or suction cups to suit objects being handled, 3D camera systems to track items, and general machine learning models trained to identify arbitrary unknown objects. By working with Dexterity robots, operators have become 47% more productive, and that improvement is growing over time as the robots learn and are more tightly integrate into local operations. Dexterity robots can also work safely alongside or independently of humans and have the ability to comply and respond to human movement and interference.
Dexteritys artificial intelligence, computer vision, and stacking design technology was what really stood out to us. Samir provides a clear vision for the future of our robotic applications and gives us confidence that with this partnership, we can easily deploy our robots in a variety of ways, said Toshihiko M., Manager, Robotics Business Center, Kawasaki Heavy Industries, Ltd.
Solving for Warehousing Challenges
The warehousing industry urgently needs automation to do the tedious, laborious, and unsafe tasks that make it difficult to recruit and retain staff. While supply chains continue to expand at a rapid pace driven by growth in e-commerce, interest in jobs that are repetitive and even dangerous continues to decline. This trend has been further complicated by COVID-19 -- increased volume, an exacerbated labor shortage due to health concerns, and the inability to guarantee safety for workers without heavily disrupting operations has amplified the need for automation.
Robots have been widely used in manufacturing, but they traditionally lack intelligence so they could only be deployed for precise pre-programmed tasks think welding in auto manufacturing where the welds are in the same place for every car. Dexterity enables human-like intelligence and dexterity to unlock a larger set of tasks in supply chain environments that have been previously unsolved by traditional robotics solutions.
About Dexterity:
Dexterity, Inc. creates intelligent robots with human-like dexterity that enable customers to unlock the maximum value of their workforce. Dexterity solves labor shortages by delegating repetitive tasks so employees can focus on higher-level, cognitive work. Its full stack robotics solutions automate routine tasks for logistics, warehousing, and supply chain operations and can be deployed to perform a wide variety of complex manipulations in unpredictable environments. Learn more at http://www.dexterity.ai.
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Medical Robots Market Size is set to Grow at a Remarkable Pace in the Coming Years – Cole of Duty
Posted: at 12:41 pm
Most Recent Report On The Global Medical Robots Market
A recent market study reveals that the global Medical Robots market is likely to grow at a CAGR of ~XX% over the forecast period (2019-2029) largely driven by factors including, factor 1, factor 2, factor 3, and factor 4. The value of the global Medical Robots market is estimated to reach ~US$ XX Bn/Mn by the end of 2029 owing to a consistent focus on research and development activities in the Medical Robots field.
The Medical Robots market study is a well-researched report encompassing a detailed analysis of this industry with respect to certain parameters such as the product capacity as well as the overall market remuneration. The report enumerates details about production and consumption patterns in the business as well, in addition to the current scenario of the Medical Robots market and the trends that will prevail in this industry.
Medical RobotsMarket competition by top manufacturers as follows:Intuitive Surgical, Inc., Stryker Corporation, Mazor Robotics Ltd, Hansen Medical Inc., Hocoma AG, Omnicell, Inc., Kirby Lester LLC, Accuray Incorporated, Ekso Bionics Holdings Inc., and Engineering Services Inc.
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In-depth analysis of the sales strategies adopted by domestic as well as global market playersLatest innovations in the Medical Robots market and its impact on market growthAll-round evaluation of the different factors expected to influence the market dynamicsPricing and marketing strategies adopted by top-tier companiesEvaluation of the micro and macro-economic factors that are anticipated to shape the future of the Medical Robots market
Competitive Outlook
The presented business intelligence report includes a SWOT analysis for the leading market players along with vital information including, revenue analysis, market share, pricing strategy of each market players.
Some of the top tier players profiled in the report include:
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Product adoption Analysis
A complete assessment of the market share, consumption patterns, and supply-demand ratio of each product is provided backed by insightful tables, figures, and graphs. The products covered in the report include:
Product 1Product 2Product 3Product 4
Regional analysis includes
North AmericaLatin AmericaEuropeSouth AsiaEast AsiaOceaniaThe Middle East and Africa
The researchers have analyzed macro-economic factors such as political, economic, social, technological, environmental, and legal developments, to derive the drivers and restraints of the Medical Robots Market. Over the top investigation of the political and financial scene of every single significant district has been done to introduce the components that will prompt the market income. Then again, customer conduct over the globe has been investigated to comprehend the conceivable development restrictions, notwithstanding other large scale factors. Understanding the restraining factors empowers market players to mitigate the possible risks that they may have to deal with during the forecast period 2016 2026.
The report provides a comprehensive study of the Medical Robots Market, with details ranging from assessment of companies to trends to geography-specific drivers and restraints. Moreover, the examination presents segmental features and serious scene concerning every geology. Authored by researchers after extensive analysis, the report is suffused with key insights into the global Medical Robots Market, and will ensure that the readers gain a comprehensive understanding of the direction the Medical Robots Market is headed in.
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Overview: Presents a broad overview of the Medical Robots Market, acting as a snapshot of the elaborate study that follows.
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Medical Robots Market Size is set to Grow at a Remarkable Pace in the Coming Years - Cole of Duty
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Robotic Investing Gains Are Anything but Emotionless – ETF Trends
Posted: at 12:03 pm
The gains in robotics have been anything, but emotionless. One only has to look at exchange-traded fund (ETF) performance from the likes of the Robotics & AI Bull 3X ETF(NYSEArca: UBOT).
Although the world is still processing the reality of what modern life looks like under threat of a global pandemic, one thing that seems clear to Wall Street is that it will involve far less human contact and a good deal more computerization and automation, a Direxion Investments The Xchange article noted. Look no further than the performance of the Indxx Global Robotics and Artificial Intelligence Thematic Index (IBOTZNT), which has outperformed the S&P 500 by 35% since the March 16 low.
Not coincidentally, the Daily Robotics, Artificial Intelligence & Automation Index Bull 3X Shares ETF (UBOT), has seen particular growth over the past few months, the article added further. The daily leveraged ETF, which aims to replicate 300% of the daily performance of IBOTZNT, has grown by more than 130% over the past two months.
UBOT data by YCharts
The top brass in companies are starting to understand the importance of deploying robotic technology thanks to the Covid-19 pandemic.
Propelling this growth is a heightened awareness among executives, investors, and management teams that contemporary life is permanently and fundamentally changed as a result of the COVID-19 outbreak, the article said. For good or ill, the virus has put centuries-old customs and practices that have prevailed in the corporate world under modern scrutiny.
Traders looking to capitalize on the move to robotics can use UBOT as a tool. UBOT seeks daily investment results equal to 300 percent of the daily performance of the Indxx Global Robotics and Artificial Intelligence Thematic Index, which is designed to provide exposure to exchange-listed companies in developed markets that are expected to benefit from the adoption and utilization of robotics and/or artificial intelligence.
Key fund characteristics of UBOT:
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Robotic Investing Gains Are Anything but Emotionless - ETF Trends
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