Article | April 1, 2021
April 12 -15 ProMatDX, the largest material handling event, will take place virtually. It will feature dozens of AGV vendors. Sadly, some of these highly innovating products still need to be plugged-in to capture power. No more.
Wiferion in process charging eliminates the plug-in charging making AGVs truly autonomous. In process charging eliminates the waste of AGV downtime – the fleet is always working AND charging. In process charging is safe ensuring the OSHA, ergonomics, and danger to workers significantly reduced. In process charging is cost-efficient because full vehicle deployment means a reduced fleet count ensuring a rapid ROI.
For OEMs of AGVs and industrial trucks implementing inductive charging technology solves the wear and tear issues caused by conventional charging methods as well as making vehicles fully autonomous. For end-users of AGVs and industrial trucks, inductive charging in combination with lithium batteries can improve fleet availability by more than 30%.
Whether driverless transport systems (AGVs), electric forklifts, or mobile robots (AMRs), the efficient use of industrial trucks is a decisive factor for competitiveness during ever- increasing cost pressures. The energy systems are being scrutinized and lithium-ion batteries are the preferred technology. The advantages versus lead-acid batteries (including the ability to recharge faster and more often) are obvious. Until now the full potential of storage technology has not been fully realized.
Article | December 8, 2021
Why should warehouses be left behind as everything gets smarter in the manufacturing world? The future warehouse will be smarter and more innovative to speed up supply chain management procedures and assist businesses in intelligently segregating their raw materials and manufactured goods.
So, what does it mean to have "a smart warehouse"?
A smart warehouse is a big infrastructure that stores raw materials and manufactured goods and employs machines and computers to handle routine warehouse tasks that humans previously performed. Smart warehouses are inspired by smart factories and operate in a data-driven environment. It is the ability of the system in the warehouse to make it more efficient and productive by utilizing networked, automated technology.
“I advocate business leaders get to know more about what AI can do and then leverage AI in proofs of concept.”
– Michael Walton, Director, Industry Executive (Manufacturing) at Microsoft
According to EASYECOM, nine out of ten businesses intend to include commercial service robots into their operations in some form. By 2025, it is projected that there will be roughly 23,000 robotic warehouses in the United States alone, up from only 2,500 in 2018.
Furthermore, the global smart warehousing market is expected to grow at a CAGR of 11.5 percent from USD 14.8 billion in 2021 to USD 25.4 billion in 2026, according to GlobeNewswire. As can be seen, the current warehouse automation trends are scaling up the worldwide market for smart warehouses, and the value of the smart warehouse business has a long way to go in the future.
So, what are the technologies that are changing traditional warehouses into intelligent warehouses? Continue reading this article to get a better understanding of this.
Top 5 Warehouse Technologies to Take On
Numerous manufacturing and non-manufacturing organizations, including IKEA, NIKE, and WALMART, utilize smart warehouses to streamline their overall operations. The technologies listed below assist many of them in implementing the modern warehousing idea.
A Warehouse Management System
Warehouse Management Systems, or WMSs, are comprehensive software systems that consolidate all of your critical data onto a single platform that can be easily accessed by team members and selected supply chain partners. This data compartmentalization allows for lightning-fast reporting, which allows for super-efficient planning, even for unexpected events. Overall, the use of warehouse management systems complements the use of other automated aspects perfectly.
Automated Picking Tools
The days of error-prone picking are long gone; now, when picking automation elements are integrated into the flow, warehouses can profit from near-perfect picking rates. In addition, picking procedures can be aided by various techniques, including voice-automated order picking, pick-to-light, and robotic order picking. These technologies also use cutting-edge barcoding choices that easily interface with your selected management software to provide the quickest and most accurate automated reporting experiences.
Automated Guided Vehicles (AGVs)
AGVs, or automatic guided vehicles, are the best approach to speeding up storage and retrieval processes. AGVs are becoming more robust as technology advances, but older models have proven safer and more cost-effective than manual labor. Their functions include pallet, rack, and other container storage and controlling and automating the entire receiving process.
Platforms for Automated Inventory Control
Automated inventory control platforms, when combined with a few other technological cornerstones, such as asset and inventory tags, may eliminate labor, guesswork, and unnecessary time from traditional inventory control. In addition, there are several advantages to using these platforms, including their ability to automatically count inventories and synthesize data for real-time reporting that can be viewed remotely.
The Internet of Things (IoT) is used by some of the world's most efficient smart warehouses, such as Amazon, as an entire concept rather than a specific technology. All of your automated and manual operations may be optimized when IoT is used to control all of your moving parts, both automated and manual. This innovative technology helps optimize a warehouse's inventory control systems, workforce planning, and, of course, the overall customer experience.
While implementing technology improves the notion of a smart warehouse, it isn't always possible for every warehouse to do so instantly, especially since implementing technology takes significant financial and infrastructure changes. That's why warehouses are adopting the concept of collaborative robots (cobots). These are the autonomous elements that work with existing human workers. Cobots allow warehouses to preserve many of their existing procedures and infrastructure while gaining the benefits of fully autonomous elements.
Amazon's Smart Warehouses Integrates Humans and Robots
Amazon acquired Kiva Systems for $775 million in 2012, highlighting its interest in warehouse robotics. Kiva Systems was the sole known producer of warehouse robots, serving many different logistics organizations.
Amazon bought Kiva Systems' machines, constructed and used them all. Amazon Robotics is a new business unit that the company has developed.
Amazon recently established a semi-automated warehouse with human workers and robots. As a result, simple chores like moving parcels and scanning barcodes are automated. However, organizing goods and carrying complex objects (like bottles) is still part of human work.
Amazon's automated warehouse employs over 400 robots and hundreds of human employees.
Amazon's rise in two crucial areas – online shopping and logistics – has been accelerated by warehouse robots.
Modern warehousing is a new trend in the manufacturing industry that automates numerous procedures required for keeping manufacturing materials and products organized. Technology trends in warehousing are making manufacturers' jobs easier and promoting the future warehouse model in 2022. Implement the cutting-edge technology outlined above to stay current with warehousing trends and boost productivity, efficiency, accuracy, and flexibility for your personnel and their operations.
What are the key benefits of a smart warehouse?
A smart warehouse improves the warehouse's productivity, efficiency, and accuracy. It also allows personnel and procedures to be flexible.
What exactly is WMS?
A warehouse management system (WMS) is a software solution that handles the supply chain from the distribution center to the retail shelf.
What is COBOT?
Cobots are designed to work with people rather than replace them. Cobots are also known as people-focused robots. They can help humans simplify and improve their work.
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"text": "A smart warehouse improves the warehouse's productivity, efficiency, and accuracy. It also allows personnel and procedures to be flexible."
"name": "What exactly is WMS?",
"text": "A warehouse management system (WMS) is a software solution that handles the supply chain from the distribution center to the retail shelf."
"name": "What is COBOT?",
"text": "Cobots are designed to work with people rather than replace them. Cobots are also known as people-focused robots. They can help humans simplify and improve their work."
Article | January 21, 2022
3D printing technology and its role in future manufacturing are grabbing the interest of industry experts. In terms of elevating future products, future additive manufacturing has a lot to offer the business. Additive manufacturing is developing and stretching its wings on a daily basis, becoming an integral part of every industry, including manufacturing, healthcare, education, and more.
In this article, we'll shed some light on the 3D printing future trends, which will assist the business in deepening its impact across industries. Furthermore, we will explore whether the additive manufacturing business is worth investing in as well as who the major players are that have already invested in the future of 3D printing.
Future Trends in the Additive Manufacturing Industry
Enhanced Machine Connectivity
Making AM solutions (including software and hardware) easier to integrate and connect to the factory floor is one of the key AM trends we predict to advance in the coming years. It has been a long time since the AM hardware market has been filled with closed, or proprietary, systems. These systems generally function with materials and software given or approved by the machine OEM and are not easily integrated with third-party alternatives.
Closed systems are important for process dependability, but they also restrict collaboration and connectivity. Companies expanding their AM operations will need to connect their machines and software to their production environments. When it comes to additive manufacturing, using siloed solutions is a surefire way to fail. Importantly, we see hardware manufacturers increasingly focusing on solutions that can be integrated with the production floor.
For example, a 3D printing market leader like Stratasys is a good illustration of the trend. In December, the business announced an extension of its previously closed machines' connection.Consumers may now integrate and control their additive production using software programs of their choosing, not just Stratasys' systems. For AM facilities, system connectivity is no longer an option. It's exciting to see the AM industry players recognize and solve this requirement.
AM and AI Continue to Converge
AM growth is incorporating AI and machine learning. AI can help with material development, machine setup, part design, and workflow automation. So, in the future, we anticipate seeing more AI and AM technology integration.
Combined with AM systems, AI will improve process control and accuracy. For example, Inkbit is currently working on an AI-powered polymer vision system. This technology can scan 3D printing layers and anticipate material behavior during printing.
Generative design, already generally recognized as a key digital advance in AM, may tremendously benefit from AI and machine learning.
It has so far been utilized to improve load routes when strength and stiffness are dominant. It can also be utilized to optimize thermal or vibration. AI and machine learning will advance generative design, allowing new concepts to be completely suited to AM.While we may be a few years away from fully developing the capacity to automatically adapt designs to process, we anticipate significant breakthroughs this year that will bring us closer.
AM Will Drive Decentralization
In order to future-proof their supply chains, many manufacturers are following new supply chain models and technology that allow them to cut prices or switch goods more easily. Increasing flexibility and agility will necessitate distributed, localized production, assisted by additive manufacturing.To reduce the number of steps required to manufacture complex metal or polymer structures, shorten lead times, and enable digital inventory management, digital inventory management can be automated. These advantages make it ideal for the distributed manufacturing model. We believe that in the near future, more businesses will actively explore distributed manufacturing with AM.
According to a recent HP survey, 59% of organizations are now considering hybrid models, while 52% are looking into localized digital manufacturing.
3D Printing Future: Major Predictions
In Jabil's 2021 3D printing trends survey of over 300 decision-makers, 62% of participants claim their organization is actively using additive manufacturing for production of their product components, up from 27% in 2017. Many such manufacturers are on the lookout for the latest additive manufacturing trends and forecasts. So let's begin.
Increasing Flexibility and Customization
Customized goods are a popular consumer trend, impacting several sectors. Rather than buying a mass-produced item, customers are increasingly demanding a custom-made item that meets their specific needs.
Additive manufacturing's low-volume production capabilities simply enable personalization and customization.
3D printing allows for more responsive design options, particularly for additive manufacturing. Manufacturers can afford to make smaller batches, allowing designers and engineers to alter product ideas and develop them cost-effectively when inspiration strikes, the public mood is understood, or customer feedback drops in.
Materials Drive the Future of Digital
As the additive manufacturing ecosystem grows, the importance of materials cannot be overstated. Besides high equipment costs, materials and limited additive manufacturing ecosystems have hindered the 3D printing industry's growth. The market is flooded with 3D printing materials, but few are advanced enough to fulfill industry standards.Due to volume constraints in most sectors, suppliers and manufacturers aren't motivated to develop innovative materials for new uses. However, the future of 3D printing is in engineered and application-specific materials.
Various sectors have unique difficulties that demand unique solutions. New designed materials will revolutionize new uses, including highly regulated sectors. Industries will reward those who can promptly introduce 3D printing materials adapted to specific industrial and engineering needs. This will allow more 3D printing applications to be supplied and the whole digital manufacturing flywheel to start spinning.
3D Printing and a Sustainable Future
Finally, additive manufacturing promotes sustainability and conservation. Besides decreasing trash, 3D printing saves energy. The Metal Powder Industries Federation studied the difference between making truck gear using subtractive manufacturing (17 steps) and additive manufacturing (6 steps).
3D printing uses less than half the energy it takes to produce the same product. 3D printing also reduces the need for moving products and materials, reducing the amount of carbon emitted into the environment. So we can see that digital and additive solutions already contribute to a more sustainable future.
Is Investment in the Future of Additive Manufacturing Worth It?
In recent years, there has been an explosion of investment in industrial 3D printing. Hundreds of millions of dollars have flowed into the industry in recent years, assisting new businesses. Desktop Metal ($160 million), Markforged ($82 million), and 3D Hubs ($18 million) have all received significant funding in the past. According to a recent report and data analysis, the global additive manufacturing market will hit USD 26.68 billion by 2027. A rising level of government support for additive manufacturing across regions is driving market demand.
For example, America Makes, the foremost national initiative in the US since 2012 dedicated to additive manufacturing (3D printing future technology), received USD 90 million in support from the government, commercial, and non-profit sectors. Given the industry's expenditures and the expanding need for 3D printing, investing in the additive manufacturing industry or 3D printing is certainly encouraged.
Additive manufacturing is being used in practically every industry, and companies are researching how technology might be used in their specific fields. The numerous advantages and sustainability that 3D printing provides are the major benefits that manufacturers and other industry professionals notice with 3D printing.Future manufacturing will be significantly more accurate and simple to run thanks to 3D printing technologies. Considering the trends and projections listed above, you may have a better understanding of 3D printing's future and make an informed investment decision.
What is the future of 3D printing?
3D printing, or additive manufacturing, has the potential to empower everything from food to coral reefs. 3D printers may soon be seen in homes, companies, disaster zones, and perhaps even outer space.
Why is 3D printing important to society?
3D printing results in waste reduction and so eliminates the need for periodic waste reduction, reuse, and recycling. So it helps society with no carbon footprint.
Why is it known as additive manufacturing?
The term "additive manufacturing" refers to the fact that the building process adds layers rather than removes raw materials.
Article | December 14, 2021
The manufacturing industry has evolved to new heights of innovation, productivity, and excellence with digital transformation. Manufacturing digitalization has made operational procedures more skilled, accurate, and time-savvy.
“Many companies simply are not willing to change or think they are done once they make a change. But the truth is technology; consumer demands, the way we work, human needs and much more are constantly changing.”
Michael Walton, Director, Industry Executive (Manufacturing) at Microsoft
With a CAGR of 19.48 percent between 2021 and 2026, the digital transformation in the manufacturing market is expected to reach USD 263.93 billion by 2026. Manufacturing plants adopt digital technology to improve, automate, and modernize processes as part of Industry 4.0.
So, what are the key benefits of digitalization for manufacturers? This article will elaborate on the top five benefits of digital manufacturing transformation.
How to Define Digital Manufacturing?
Manufacturing digital transformation involves integrating digital technologies into processes and products to improve manufacturing efficiency and quality. Manufacturing's digital transformation aims to increase operational efficiency and reduce expenses. The digital transformation techniques ensure product quality. It also makes work more efficient, safe, and stress-free.
What Is Included in Manufacturing Digitization (Industry 4.0)?
Industry 4.0 is the digitalization of manufacturing. Cyber-physical systems, IoT, and cloud computing are current trends in manufacturing automation and data exchange. Connected devices, cloud computing power, and the modern emphasis of lean, efficient operations enable Industry 4.0 to construct advanced and innovative smart factories.
Industry 4.0 includes design, sales, inventories, scheduling, quality, engineering, customer and field service.
Five Benefits of Digital Transformation in Manufacturing
Manufacturing organizations can benefit from digitalization in a variety of ways. It can help make the work more efficient, decentralized, and secure. It further creates new business opportunities and attracts new talent to the industry. Additionally, integrating products into a digital ecosystem increases their value and appeal. Let’s dig deeper into each of the five key benefits.
Technology is an invaluable companion in reducing the manufacturing company's expenses in the future. The incorporation of digital technology results in the transformation of procedures and the digitization of documents, resulting in overall process optimization. Therefore, a reduction in labor costs might be expected as a result of the elimination of unnecessary expenditures.
Additionally, digitization enables businesses to assess and estimate expenses considerably more precisely, ensuring that budgets stay on track. Additionally, it eliminates andsubstitutes inefficient jobs within processes, significantly increasing their efficiency. This efficiency is translated into time savings, which results in a substantially more cost-effective manufacturing process.
Manufacturing digital transformation allows organizations to supervise manufacturing remotely, allowing production to continue uninterrupted. In rare cases like Covid-19, digitalized businesses have not had to cease or even slow down production. These systems can work without interruptions for much longer than any worker.
Digitalization also boosts methodology flexibility and reactivity. For example, if a production plant has a problem, an automatic alert is generated, and the issue is resolved regardless of the day, time, or presence.
Improved Operational Efficiency
Smart product connectivity allows devices to connect and communicate with each other (M2M). This connectivity enables decentralized decision-making. Many duties no longer require an employee to be physically present. New manufacturing and production models minimize boring, risky activities while increasing accuracy, efficiency, and responsiveness.
Transforming businesses through digital means making better decisions based on real-time data. Training, changes, and repairs are no longer issues due to reduced frequency and automation.
New Business Opportunities
New digital technologies enable the manufacture of previously unviable products and services, generating new revenue streams. Also, new services (innovation or reorientation) are launched considerably faster. Companies may utilize big data and AI to experiment, anticipate trends, and predict about new advancements. These technologies can help organizations become more eco-friendly and create products that are less detrimental to our environment.
Attracts New Talent
Professionals with fundamental talents in this complicated and disruptive environment are drawn to digitalizedorganizations that are up-to-date with trends and processes. Also, if the change is managed well, it will lead to higher profitability, increasing employee satisfaction. Human motivation, along with excellent digital technologies, will reflect in the company's production and profitability.
Dusseldorf@Germany: The Deloitte Digital Factory
The digital factory in Dusseldorf provides a flexible setting for innovative workshops and training, bringing together the old and new worlds of supply chain and industrial operations to provide a seamless experience. Specific use case examples, as well as the digital solutions sector, will motivate and encourage businesses to get on their digital transformation journeys, making use of the most up-to-date technologies in the process.
Manufacturing digitalization has a lot to offer the industry, and many manufacturers are capitalizing on this new phase of the industrial revolution by incorporating cutting-edge technologies into manufacturing and business operations. As said previously, the benefits of digital transformation in the manufacturing business are increasing the importance of digitalization in the industry. Transform your traditional manufacturing operating processes with these new manufacturing trends and observe the results that other benefitting manufacturing businesses have achieved.
Why is digitalization vital in manufacturing?
Manufacturing process digitization improves overall business performance. But the results are seen across the factory. Digital transformation improves working conditions for employees and streamlines daily operations.
How are digitization and digitalization different?
Digitalization is a transformation of data and processes. Digitalization is the use of digital technologies to collect data, identify patterns, and make better business decisions.
How digital technologies are applied in manufacturing?
Digital manufacturing technologies enable the integration of systems and processes across all stages of production, from design to production and beyond.