Sushi Singularity to serve 3D printed sushi based on customer's saliva and urine

| March 21, 2019
SUSHI SINGULARITY TO SERVE 3D PRINTED SUSHI BASED ON CUSTOMER'S SALIVA AND URINE
Japanese company Open Meals is fusing science and sushi to create nutrient-rich foods that is tailored to each diner. By using biological samples including saliva, urine, and stool, Open Meals will create a 3D printed sushi based on individual requirements.

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2022: The Year of Robotics Industry Expansion

Article | November 12, 2021

Robotics industry growth has accelerated rapidly across several industries. It has aided manufacturers in overcoming numerous barriers related to real-time communication, workplace safety, and overall manufacturing cost and timeliness. However, if we trace its history back to 1961 when George Charles Devol introduced the first robot, dubbed 'UNIMATE,' it has exponentially grown and utilized across sectors to make operations more effortless, precise, and faster. “As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity.” – Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca. However, the industry has seen snags or difficult times due to market fluctuations, unfavorable situations, and the need to remain competitive in the drive for expansion. To thoroughly understand the robotics industry, let us examine each component that surrounds it. Industrial Robotics Global Market Size According to recent Allied Market Research studies, the global industrial robotics market was worth $37,875 million in 2016 and is expected to reach $70,715 million by 2023, rising at a 9.4% compound annual growth from 2017 to 2023. Industrial Robotics Market Analysis The global industrial robotics market is primarily driven by a global increase in labor costs, which has compelled firms to replace human labor with robots. As a result, Asia and Europe are the world's fastest-growing areas, with top companies such as ABB, Fanuc, KUKA, Kawasaki, and Yaskawa Electric Corporation headquartered in the region. The global market of robotics has been segmented by its type, industry, and function. Type Industry Function Articulated Automotive Soldering and Welding Cartesian Electrical & Electronics Materials Handling SCARA Healthcare & Medicine Assembling & Disassembling Cylindrical Rubber & Plastics Painting and Dispensing Others if any Machinery & Metals Cutting and Processing Food & Beverages Milling Precision & Optics Others if any Others if any Industries That Are Pioneering the Use of Robotics As we have observed, the global robotic market will continue to rise in the future years. Therefore, let us examine which industries will extend their use of robotics in their operations. Healthcare & Medicine Medical robots help surgeons optimize hospital logistics and free up the working staff to focus on patients. In the healthcare field, robots are revolutionizing surgery by speeding supply delivery and disinfection and freeing up time for doctors to interact with their patients. da Vinci System – A General Surgical Robot The da Vinci System is a surgical robot that focuses on a wide range of urological, bariatric, and gynecological surgical treatments. In addition, Stryker's MAKO System also specializes in orthopedic surgery, specifically partial and total knee replacements. The da Vinci SP system is cleared for use in the United States exclusively for single-port urological procedures, lateral oropharyngectomy (often referred to as radical tonsillectomy), and tongue base excision. Law Enforcement Police robots are meant to gain access to areas inaccessible or dangerous to first responders, and they are capable of manipulating items and gathering data using several technologies. It encompasses robots capable of operating in various conditions and displaying a range of data and communication capabilities. Agriculture & Food Industry Farm equipment is now routinely equipped with sensors that utilize machine learning and robotics to identify weeds, compute the appropriate quantity of herbicide to spray, or learn to detect and pick strawberries, for instance. Additionally, in the food business, robotics has been used to do repetitive tasks such as picking and placing food items and cutting and slicing food items during any given food item. For instance, the modern bakery business uses robotics to perform traditional craft skills and produce any product in large quantities while maintaining high quality and hygiene standards. Transportation The transportation sector is highly leveraging robotics. The powerful transport capability, advanced control technology, and sensing precision are some of the benefits that make the transportation robots widely utilized in this sector. These benefits from robotics help the sector convey various commodities in factories, restaurants, and medical institutions, among other locations. Manufacturing Robots are employed in manufacturing to do repeated jobs and streamline the overall assembly process. Additionally, robots and humans can also collaborate on product making. Robots can replace humans for hazardous tasks or processes that need large quantities of materials, which might be hazardous for a human employee to handle. Factors Sustaining the Growth of the Robotics Industry Reduces Manufacturing Costs: Robotics application in all industries reduces the overall manufacturing process running costs. Improves Product Quality: The precision of robotics throughout the manufacturing process helps produce high-quality items that meet target client needs. Offers Competitive Market: Increased income due to utilizing the benefits of robotics applications makes any industry more competitive. Speed-ups Production Time: Robotics speeds up production and helps manufacturers increase output. Offers Task or Process Flexibility: Robotics can weld, cast, mold, assemble, machine, transfer, inspect, load, and unload items, among other duties. So, it gives the manufacturer process flexibility. Reduces Excessive Use and Waste of Production Materials: Robotics employs the exact quantity of material required for the manufactured product, reducing waste and overuse of materials. Offers a Safe Working Place: Robotics improves employee health and safety by performing tasks that humans find risky. For example, in the chemical industry, a human employee may not do a hazardous task. In such instances, robots can replace people. Final Words The rise of the robotics industry has accelerated dramatically, and it is now spreading its wings across industries. Research firm IDC provided a projection for the commercial robot market, forecasting that the market will exceed $53 billion by 2022, with a compound annual growth rate of more than 20%. In addition, several advantages of robotics such as safety, productivity, uniformity, and perfection are pushing its expansion and making it an essential element of industry 4.0. FAQs Why are robots the future of the manufacturing industry? The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing. Which industries make the most use of robotics? Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it. How is manufacturing utilizing robotics? Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "Why are robots the future of the manufacturing industry?", "acceptedAnswer": { "@type": "Answer", "text": "The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing." } },{ "@type": "Question", "name": "Which industries make the most use of robotics?", "acceptedAnswer": { "@type": "Answer", "text": "Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it." } },{ "@type": "Question", "name": "How is manufacturing utilizing robotics?", "acceptedAnswer": { "@type": "Answer", "text": "Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency." } }] }

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Real-Time Data Collection in Manufacturing: Benefits and Techniques

Article | January 12, 2022

Real-time manufacturing analytics enables the manufacturing base to increase its efficiency and overall productivity in a variety of ways. Production data is an effective means of determining the factory's efficiency and identifying areas where it might be more productive. “Without big data analytics, companies are blind and deaf, wandering out onto the web like deer on a freeway.” – Geoffrey Moore, an American Management Consultant and Author Creating a product-specific data collection may assist you in determining and visualizing what needs to be improved and what is doing well. In this article, we'll look at why manufacturing data collection is vital for your organization and how it may help you improve your operations. Why is Manufacturing Data Collection so Critical? Visibility is the key benefit that every manufacturer gets from manufacturing data collection. By collecting real-time data, or what we refer to as "shop floor data," manufacturers better understand how to assess, comprehend, and improve their plant operations. Manufacturers can make informed decisions based on detailed shop floor data. This is why having precise, real-time production data is critical. “According to Allied Market Research, the worldwide manufacturing analytics market was worth $5,950 million in 2018 and is expected to reach $28,443.7 million by 2026, rising at a 16.5% compound annual growth rate between 2019 and 2026.” For modern manufacturers, the advantages of data collection in manufacturing are numerous. The manufacturing industry benefits from production data and data-driven strategy in the following ways. Substantial reduction in downtime by identifying and addressing the root causes of downtime. It increases manufacturing efficiency and productivity by minimizing production bottlenecks. A more robust maintenance routine that is based on real-time alerts and machine circumstances. Improvements in demand forecasting, supplier scoring, waste reduction, and warehouse optimization reduce supply chain costs. Higher-quality goods that are more in line with customers' wishes and demands depending on how they are utilized in the current world. So, after looking at some of the significant benefits of real-time manufacturing analytics, let’s see what type of data is collected from production data tracking. What Sorts of Data May Be Collected for Production Tracking? Downtime: Operators can record or track downtime for jams, cleaning, minor slowdowns, and stoppages, among other causes, with production tracking software. In the latter scenario, downtime accuracy is optimized by removing rounding, human error, and forgotten downtime occurrences. The software also lets you categorize different types of stops. Changeovers: Changeovers can also be manually recorded. However, changeovers tracked by monitoring software provide valuable data points for analysis, considerably reducing the time required for new configurations. Maintenance Failures: Similar to downtime classification, the program assists in tracking the types of maintenance breakdowns and service orders and their possible causes. This may result in cost savings and enable businesses to implement predictive or prescriptive maintenance strategies based on reliable real-time data. Items of Good Quality: This is a fundamental component of production management. Companies can't fulfill requests for delivery on schedule unless they know what's created first quality. Real-time data collection guarantees that these numbers are accurate and orders are filled efficiently. Scrap: For manufacturers, waste is a significant challenge. However, conventional techniques are prone to overlooking scrap parts or documenting them wrong. The production tracking system can record the number and type of errors, allowing for analysis and improvement. Additionally, it can capture rework, rework time, and associated activities. WIP Inventory: Accurate inventory management is critical in production, yet a significant quantity of material may become "invisible" once it is distributed to the floor. Collecting data on the movement and state of work in progress is critical for determining overall efficiency. Production Schedule: Accurate data collection is essential to managing manufacturing orders and assessing operational progress. Customers' requests may not be fulfilled within the specified lead time if out of stock. Shop floor data gathering provides accurate production histories and helps managers fulfill delivery deadlines. Which Real-time Data Collection Techniques Do Manufacturers Employ? Manufacturers frequently employ a wide range of data collection techniques due to the abundance of data sources. Manual data collection and automated data collection are two of the most common data collection methods. Here are a few examples from both methods: IoT: To provide the appropriate information to the right people at the right time with the correct shop floor insight, IoT (Internet of Things) sensor integration is employed. PLC: The integration of PLC (Programmable Logic Controller) is used to measure and regulate manufacturing operations. HMI: It can provide human context to data by integrating line HMI (Human Machine Interface) systems (such as individual shop terminals like touch screens located on factory floor equipment). SCADA: Overarching management of activities with SCADA (Supervisory Control and Data Acquisition) systems. CNC and Other Machines: Integrating CNC and other machines (both new and older types) to keep tabs on production efficiency and machine well-being is a must these days. Final Words One of the most challenging aspects of shop floor management is determining what to measure and what to overlook. The National Institute of Standards and Technology recently conducted a study on assisting manufacturing operations in determining which data to collect from the shop floor.Additionally, you may utilize the manufacturing data set described above to obtain information from your manufacturing facility and use it strategically to improve operations, productivity, efficiency, and total business revenue in the long term. FAQ What is manufacturing analytics? Manufacturing analytics uses operations and event data and technology in the manufacturing business to assure quality, improve performance and yield, lower costs, and optimize supply chains. How is data collected in manufacturing? Data collection from a manufacturing process can be done through manual methods, paperwork, or a production/process management software system.

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Advanced Manufacturing: Be Competitive in 2022

Article | November 1, 2021

Manufacturing processes will undergo significant transformation in 2022 as a result of advanced manufacturing technology. The changing manufacturing industry is full of digitization to improve processes, products, productivity, and business revenue. Manufacturers must realize the advantages of advanced manufacturing and learn to enhance their production processes to increase their manufacturing plant's productivity. Once you understand the heart of your business and where to integrate technology, you're halfway to success. The manufacturing industry's top professionals have also recognized the technology shift and are supporting upskilling in the manufacturing business. Mr. Matt Mong has said in his interview with Media7, “Once you start to look at yourself in the right way and realize that projects are at the core of your business, it is easy to see how you should use technology to support your business.” – Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca Importance of Advanced Manufacturing Adopting innovative manufacturing technologies has several advantages that grow its acceptance and relevance among manufacturers across industries. The following are the most significant advantages of advanced manufacturing. Amplifying the product and process quality Improvement in productivity Encourages new ways to innovation Decreases production time Considering the factors above that contribute to the production process becoming more efficient, productive, and revenue-generating, advanced manufacturing will continue to dominate the manufacturing business in 2022. Top Five Technologies That Are Advancing Manufacturing in 2022 To better understand the current trends in manufacturing technology, let us comprehend the technologies that are advancing the manufacturing industry. Additionally, discover how these technologies help manufacturers to advance their manufacturing processes. Cloud Computing Cloud computing in manufacturing is used for marketing, product development, inventory management, and productivity management. It stores software and commercial data via internet connections. Cloud computing is becoming a prevalent technology because it enables manufacturers to improve communication and manage the entire production cycle effectively. According to MarketsandMarkets' study, the global cloud computing market will also increase to 832.1 billion dollars by 2025, growing at a 17.5 percent annual rate in the following years. Benefits of Cloud Computing Fewer technical issues when compared to traditional software use Cost savings because no in-house servers are required Cloud computing enables easy scalability for your developing firm Cloud computing provides centralized control and access from any device How did McDonald's use AWS cloud computing services to transform their customer service? Additive Manufacturing Additive manufacturing enables the fabrication of lighter, more sophisticated designs that would be impossible or prohibitively expensive to fabricate using conventional dies, molds, milling, and machining techniques. Rapid prototyping is another area where additive manufacturing thrives. As a result, it is gaining a grip in the manufacturing business. According to Statista's market research, the additive manufacturing industry is worth approximately 12.6 billion US dollars in 2020 and is predicted to increase at a compound annual growth rate of 17% until 2023. Benefits of Additive Manufacturing Reduces material waste Simplifies manufacturing processes Additive manufacturing enables on-demand production Increases supply chain flexibility The finished product can be made close to the end customer Robotics Robots are used in manufacturing to automate repetitive tasks, resulting in a more efficient assembly line. Humans and robots work together on a variety of things as well during the production of various products. Many jobs are hazardous or necessitate many supplies, which could be harmful to the human workers themselves. So, in such instances, robots play a significant role in executing manufacturing operations. Robotics' increasing application in production is transforming it into a necessary component of industrial processes in the future. According to Mordorintelligence's study, the robots industry was worth USD 27.73 billion in 2020 and is predicted to reach USD 74.1 billion by 2026, growing at a CAGR of 17.45 percent between 2021 and 2026. Benefits of Robotics Increased productivity when compared to traditional manufacturing Consistent speed and quality during goods production Increased workplace safety for all employees at the manufacturing plant Aids in more efficient use of floor space Internet of Things The Internet of Things allows devices to interconnect with one another and exchange data. The IoT connects assets to processes, systems, and people in manufacturing. This enables improved process integration, increased efficiency, and the advancement of manufacturing to the next transformation phase, Industry 4.0. According to Mordorintelligence's market research, the global IoT market is estimated to reach USD 1,386.06 billion in 2026, up from USD 761.4 billion in 2020, a CAGR of 10.53 percent over the forecast period of 2021 to 2026. Benefits of Internet of Things It contributes to increased energy efficiency by identifying and optimizing underperforming devices It monitors all processes and parameters to determine when to replace specific components It improves product quality by analyzing and correcting issues at any stage of the manufacturing process It reduces downtime by detecting and alerting production line personnel to problems It enables more informed decision-making by unlocking Virtual Reality Virtual reality enables plant managers to mimic manufacturing processes and assembly line layouts to discover potentially harmful scenarios. Additionally, virtual reality can immerse an employee in a future workstation and then capture their movement to assess task feasibility and proficiency. As a result, the usage of virtual reality in manufacturing is increasing daily and is widely seen as the industry's future. According to market research firm markets and markets, the worldwide virtual reality industry is estimated to rise by USD 20.9 billion by 2025, expanding at a 27.9 percent compound annual growth rate from 2020 to 2025. Benefits of Virtual Reality Enables a more thorough examination of the product's design Enables the gathering of feedback on future items before they are launched in the real world Final Words In recent years, advanced manufacturing technology has helped the manufacturing industry become more efficient, precise, and goal-oriented. As a result, manufacturers are eager to upgrade their current manufacturing facilities to state-of-the-art facilities. As a result, manufacturing companies would become more competitive and an integral industry component if they implement cutting-edge technologies. FAQs How do you define advanced manufacturing? Product and process improvement through inventive use of new technology is called advanced manufacturing. Which sectors are utilizing cutting-edge technology? Aerospace, Medical, Electronics, Transportation, Energy, and Consumer Product Production Companies are the top businesses or sectors that use cutting-edge technologies with sophisticated manufacturing. What is the difference between conventional manufacturing and advanced manufacturing? Traditional manufacturing adds value to attain the goal. Traditional manufacturing adds value to attain the goal. But, on the other hand, advanced manufacturing covers production methods in specific industries like aerospace, medical, pharmaceutical, etc.

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Rex Moore Proves Project Business Automation Provides Predictive and Proactive Resource Requirements

Article | July 28, 2021

Rex Moore Group, Inc. is a Top50 electrical contractor delivering unmatched integrated electrical solutions. As an early adopter of Lean manufacturing principles, Rex Moore has created a company-wide culture of continuous improvement that drives significant value to their clients. The firm contracts and performs both design/build and bid work for all electrical, telecommunications, and integrated systems market segments. Rex Moore has a full-service maintenance department to cover emergency and routine requirements for all facilities, whether an existing facility or one that has been recently completed by the company. The ability to negotiate and competitively bid various forms of contracts including lump-sum, fixed fee, hourly rate, and cost-plus work as a prime contractor, subcontractor, or joint venture is enhanced with Project Business Automation (PBA) from Adeaca. This solution permits the company to propose work only if they are in a position to be competitive in the marketplace and provide excellent service with fair compensation. Rex Moore used Adeaca PBA as a construction management software for builders and contractors to integrate and facilitate its business processes in its ERP system. Together with Microsoft Dynamics, PBA integrated processes across the company on a single end-to-end platform. This allowed the company to replace 15 different applications with a single comprehensive system, eliminating the costs and inefficiencies associated with multiple systems and silos of information.

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