Artificial Intelligence
Collaborative Robots Market Worth $1.43 Billion by 2027, Growing at a CAGR of 22.6% from 2020- Pre and Post COVID-19 Market Opportunity Analysis and Industry Forecasts by Meticulous Research®
London, Aug. 25, 2020 (GLOBE NEWSWIRE) — A collaborative robot (Cobot) is defined as a robot specifically designed for interaction with a human within a defined and safeguarded workspace where the robot and a human can perform tasks simultaneously during automatic operation. The human robot interaction happens during collaborative operation which is a state in which purpose designed robots can safely work with cooperation of a human. Collaborative robots have application in multiple industry verticals such as automotive, electronics, food & beverages, metals & machinery, plastic & polymer, construction, logistics, packaging, and healthcare.
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The collaborative robots market is expected to reach $1.43 billion by 2027, growing at a CAGR of 22.6% by value and 56,479 units by 2027, growing at a CAGR of 26.1% by volume during the forecast period of 2020 to 2027. The growth in this market is mainly attributed to the factors such as advancements in human-machine interface to enhance industrial production, rapidly evolving advanced software to enhance human safety, and increasing adoption due to ease of programming of collaborative robots. Moreover, the rising implementation of collaborative robots in non-manufacturing applications such as logistics and packaging; and declining prices are some of the key factors boosting the adoption of collaborative robots. However, the lack of proper training for human operators and lack of high-speed operation and faster cycle time capabilities hinders the growth of this market.
The overall collaborative robots market is segmented on the basis of application, end-user, component, payload, and geography. Based on application, the collaborative robots market is segmented into material handling, assembly line, machine tending, welding, and inspection. In 2020, the material handling segment is estimated to account for the largest share of the overall collaborative robots market. The large share of this segment is mainly attributed to the factors such as increasing production efficiency, high speed and accuracy of operations, low maintenance cost, speed and strength of material handling, and compact design of robots. Further, the material handling and logistics is a major application in various end-use industries such as automotive, electronics, metals, and machineries. Since, these industry verticals contribute a major share of the overall collaborative robots market, the material handling and logistics segment is also estimated to command the largest share. However, the assembly line segment and machine tending application are the high growth applications during the forecast period.
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Based on end user, the overall collaborative robots market is segmented into automotive & transportation, electronics & semiconductor, furniture, metal and machinery, plastic and polymer, food and beverage, construction, healthcare, and others. In 2020, the automotive & transportation segment is estimated to account for the largest share of the overall collaborative robots market. The key factor attributed to the largest share of this segment is the growing need to automate complex manufacturing processes that require high precision and accuracy in the automotive industry. For instance, collaborative robot in the automotive industry is used for loading and unloading of machine parts, installation of door panels, and assembling of small parts such as motors or pumps.
Based on payload, the collaborative robots market is segmented into up to 5KG, 5KG to 10KG, and above 10KG. In 2020, the 5KG to 10KG segment is estimated to hold the largest share of the overall collaborative robots market.
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On the basis of geography, the collaborative robots market is segmented into North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa. In 2020, Asia-Pacific region is estimated to account for the largest share of the global collaborative robots market. This large share can be attributed to the presence of large-scale manufacturing industries in the region, especially in automotive, electronics, and metal and machinery sectors. Also, the growing presence of the key robot manufacturers in the region, government initiatives, innovation, and investment in robotics further supports the growth of the collaborative robots market in the region. However, the European region is expected to grow at the highest CAGR during the forecast period. Europe is one of the early adopters of collaborative robots and the high growth is attributed to the introduction of industry 4.0 and artificial intelligence due to which both SMEs and large industries have adopted collaborative robots to modernize the production capabilities.
Some of the key players operating in the global collaborative robots market are ABB (Switzerland), AUBO Robotics (U.S.), Fanuc (Japan), F&P Robotics (Switzerland), Universal Robots (Denmark), Kawasaki (Japan), Robert Bosch (Germany), Precise Automation (U.S.), Rethink Robotics (Germany), Staubli (Switzerland). MABI (Switzerland), Yaskawa Electric (Japan), KUKA (Germany), Techman Robot (Taiwan), and Doosan Robotics (South Korea).
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Scope of the Report
Cobots Market by Application
- Material Handling & Logistics
- Pick & Place
- Packaging & Palletizing
- Assembly Line
- Machine Tending
- Grinding
- Milling & Turning
- Injection Molding
- Others
- Welding
- Arc Welding
- Laser Welding
- Spot Welding
- Others
- Inspection
- Quality Check
- Testing
- Others
Cobots Market by End-User
- Automotive
- Electronics & semiconductor
- Metals & Machinery
- Food & Beverages
- Plastics & Polymers
- Construction
- Healthcare
- Furniture
- others
Cobots Market by Component
- Hardware
- Robotic Arm
- End of arm tooling
- Welding Guns
- Grippers
- Vaccum Cups
- Clamps
- Tool Changer
- Others
- Drive
- Controllers
- Sensors
- Others
- Software
Cobots Market by Payload
- Up to 5Kg
- 5 to 10 Kg
- More than 10 Kg
Cobots Market by Geography
- North America
- U.S.
- Canada
- Europe
- Germany
- France
- Italy
- U.K.
- Spain
- Rest of Europe
- Asia-Pacific (APAC)
- China
- Japan
- South Korea
- India
- Singapore
- Taiwan
- Rest of Asia-Pacific (RoAPAC)
- Latin America
- Mexico
- Rest of Latin America
- Middle East and Africa
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Artificial Intelligence
QSAN Unveils Latest Solutions for AI Era at COMPUTEX 2024
Introducing Next-Gen NVMe Array and All-New Container Platform
TAIPEI, April 24, 2024 /PRNewswire/ — AI is sweeping the globe, transforming industries and spurring enterprises to adopt AI in business. As companies gear up to seize this incredible opportunity of rapid business growth, upgrading their IT infrastructure is the first step. At COMPUTEX 2024, QSAN will unveil state-of-the-art solutions to assist enterprises in the AI era.
Unparalleled Performance All NVMe Flash ArrayThe next-generation XCubeFAS 5226 is now delivering extremely fast performance. It features low latency, high throughput, and robust IOPs to accelerate demanding workloads for the upcoming AI era.
Innovative Container PlatformThe KubeSwift series is an innovative appliance that empowers SMBs with CaaS (Container as a Service) capabilities. This all-in-one solution streamlines containerized application deployment, management, and scaling, providing a robust foundation for modern IT infrastructures.
High Scalability Enterprise Unified StorageAs artificial intelligence continues to advance, the value of data will grow exponentially, driving the need for expanded storage capacity. XCubeNXT is an enterprise unified storage system with PB-level scalability, high availability, and multi-functional connectivity. It aims to prepare for storing massive amounts of material generated by AI.
Register for QSAN Tech Talk
QSAN will host tech talks to provide insights into storage technology and the future. Professionals will have in-depth discussions on topics such as AI applications, storage technology trends, market analysis, and prediction. Register for tech talk for more forecasts.
Make an Appointment with a QSAN Expert Consultant
Tailor-made storage consulting will also be available at COMPUTEX 2024. For the best chance of accelerating your business, make an appointment with a QSAN expert.
QSAN at 2024 COMPUTEX Information
Event Date: June 4 ~ 7, 2024Event Time: (GMT+8) 9:30 AM ~ 05:30 PMBooth No.: M1435a (AI Computing & System Integration)Location: 4F, Taipei Nangang Exhibition Center, Hall 1 (TaiNEX 1)Address: No.1, Jingmao 2nd Rd., Nangang District, Taipei City 115, Taiwan
QSAN Showroom for Tech Talk and Expert Consultant
Event Date: June 4 ~ 7, 2024Event Time: (GMT+8) 10:00 AM ~ 05:30 PMLocation: QSAN ShowRoomAddress: No. 2, Ln. 1, Fukang St., Nangang District, Taipei City 115, Taiwan
For more information, please visit: www.QSAN.com
Media Contacts Email: [email protected] Address: 4F., No.103, RuiHu Street, NeiHu District, Taipei, Taiwan11494 Phone: +886-2-7720-2118
View original content:https://www.prnewswire.co.uk/news-releases/qsan-unveils-latest-solutions-for-ai-era-at-computex-2024-302126012.html
Artificial Intelligence
Kanazawa University research: Biochemical tails tell a story
KANAZAWA, Japan, April 24, 2024 /PRNewswire/ — Researchers at Nano Life Science Institute (WPI-NanoLSI), Kanazawa University report in Nano Letters how the use of high-speed atomic force microscopy helps to understand the crucial role played by certain biomolecules in DNA wrapping dynamics.
In plants and animals, the basic packaging units of DNA, which carry genetic information, are the so-called nucleosomes. A nucleosome consists of a segment of DNA wound around eight proteins known as histones. During gene expression (the process lying at the basis of protein production), nucleosomes are involved in various dynamical structural changes, such as nucleosome sliding, DNA unwrapping and other DNA–histone interactions. Of particular importance in these processes are the end structures, or tails, of the histones. Histone tails undergo chemical modifications, changing the histone’s functionality as needed. Detailed studies, and especially visualizations, of nucleosome dynamics are crucial for better understanding the role of histone tails. Mikihiro Shibata from Kanazawa University and colleagues have now succeeded in making video recordings of tail-less nucleosomes, showing that the absence of histone tails significantly increases a nucleosome’s dynamic activity.
The scientists used high-speed atomic force microscopy (HS-AFM), a powerful nanoimaging tool for visualizing molecular structures and their dynamics at high spatial and temporal resolution. For this, the nucleosomes needed to be put onto a substrate. Shibata and colleagues used a film of so-called pillar[5]arenes (molecules with a pentagonal tubular structure) as the substrate, forming an ideal surface as the nucleosomes are easily adsorbed to it without dynamical processes getting suppressed.
The researchers first looked at nucleosomes for which all eight histones lacked tails. Based on their HS-AFM observations, they concluded that nucleosome sliding and DNA unwrapping/rewrapping occurred more often than for normal (canonical) nucleosomes. This suggests that without tails, the histone–DNA interaction is weakened, leading to a situation in which DNA can more easily detach from the histones.
To better understand the roles of specific histone tails, Shibata and colleagues prepared nucleosomes where one type of histone was tailless. There are four different types of histones, called H2A, H2B, H3 and H4. HS-AFM experiments on the nucleosomes revealed that H2B and H3 tail-less nucleosomes showed an increased frequency of dynamics. Conversely, this means that canonical H2B and H3 histones are essential for nucleosome stability.
The scientists point out that they could not observe any actual motion of histone tails — most likely the temporal resolution of the study, 0.3 seconds, was much slower than the rate of the wrapping/unwrapping dynamics of the tails. Despite this limitation, the work of Shibata and colleagues clearly proves that the tails of H2B and H3 histones are the main contributors to nucleosome dynamics. Regarding future work, quoting the researchers, “a technique for tagging histone tail tips might enable HS-AFM to capture the movements of the histone tails themselves.”
Background
High-speed atomic force microscopy
The general principle of atomic force microscopy (AFM) is to make a very small tip scan the surface of a sample. During this horizontal (xy) scan, the tip, which is attached to a small cantilever, follows the sample’s vertical (z) profile, inducing a force on the cantilever that can be measured. The magnitude of the force at the xy position can be related to the z value; the xyz data generated during a scan then result in a height map providing structural information about the investigated sample. In high-speed-AFM (HS-AFM), the working principle is slightly more involved: the cantilever is made to oscillate near its resonance frequency. When the tip is moved around a surface, the variations in the amplitude (or the frequency) of the cantilever’s oscillation — resulting from the tip’s interaction with the sample’s surface — are recorded, as these provide a measure for the local z value. AFM does not involve lenses, so its resolution is not restricted by the so-called diffraction limit as in X-ray diffraction, for example.
HS-AFM results in a video, where the time interval between frames depends on the speed with which a single image can be generated (by xy-scanning the sample). Researchers at Nano Life Science Institute (WPI-NanoLSI), Kanazawa University have in recent years developed HS-AFM further, so that it can be applied to study biochemical molecules and biomolecular processes in real-time. Mikihiro Shibata and colleagues have now applied the method to study nucleosome dynamics in detail, and in particular the role of the molecular endings of histones — proteins that play a crucial role in DNA accessibility.
Reference
Shin Morioka, Takumi Oishi, Suguru Hatazawa, Takahiro Kakuta, Tomoki Ogoshi, Kenichi Umeda, Noriyuki Kodera, Hitoshi Kurumizaka, and Mikihiro Shibata. High-Speed Atomic Force Microscopy Reveals the Nucleosome Sliding and DNA Unwrapping/Wrapping Dynamics of Tail-less Nucleosomes, Nano Letters ,2024.
DOI: 10.1021/acs.nanolett.4c00801https://pubs.acs.org/doi/10.1021/acs.nanolett.4c00801
https://nanolsi.kanazawa-u.ac.jp/wp/wp-content/uploads/Figure-1-12.png Figure 1.
High-speed atomic force microscopy visualization of nucleosome dynamics with canonical (top) and tail-less (bottom) histones.© 2024 American Chemical Society
ContactHiroe YonedaSenior Specialist in Project Planning and OutreachNanoLSI Administration Office, Nano Life Science Institute (WPI-NanoLSI)Kanazawa UniversityKakuma-machi, Kanazawa 920-1192, JapanEmail: [email protected]: +81 (76) 234-4555
About Nano Life Science Institute (WPI-NanoLSI), Kanazawa University
Understanding nanoscale mechanisms of life phenomena by exploring “uncharted nano-realms”
Cells are the basic units of almost all life forms. We are developing nanoprobe technologies that allow direct imaging, analysis, and manipulation of the behavior and dynamics of important macromolecules in living organisms, such as proteins and nucleic acids, at the surface and interior of cells. We aim at acquiring a fundamental understanding of the various life phenomena at the nanoscale.https://nanolsi.kanazawa-u.ac.jp/en/
About the World Premier International Research Center Initiative (WPI)
The WPI program was launched in 2007 by Japan’s Ministry of Education, Culture, Sports, Science and Technology (MEXT) to foster globally visible research centers boasting the highest standards and outstanding research environments. Numbering more than a dozen and operating at institutions throughout the country, these centers are given a high degree of autonomy, allowing them to engage in innovative modes of management and research. The program is administered by the Japan Society for the Promotion of Science (JSPS).
See the latest research news from the centers at the WPI News Portal: https://www.eurekalert.org/newsportal/WPI
Main WPI program site: www.jsps.go.jp/english/e-toplevel
About Kanazawa University
As the leading comprehensive university on the Sea of Japan coast, Kanazawa University has contributed greatly to higher education and academic research in Japan since it was founded in 1949. The University has three colleges and 17 schools offering courses in subjects that include medicine, computer engineering, and humanities.
The University is located on the coast of the Sea of Japan in Kanazawa – a city rich in history and culture. The city of Kanazawa has a highly respected intellectual profile since the time of the fiefdom (1598-1867). Kanazawa University is divided into two main campuses: Kakuma and Takaramachi for its approximately 10,200 students including 600 from overseas.http://www.kanazawa-u.ac.jp/e/
View original content:https://www.prnewswire.co.uk/news-releases/kanazawa-university-research-biochemical-tails-tell-a-story-302125876.html
Artificial Intelligence
Geek+ and System Teknik deploy first PopPick solution in the Nordics for the pharmacy group Med24.dk
DUSSELDORF, Germany, April 24, 2024 /PRNewswire/ — Geekplus, the global leader in mobile robot and smart logistics solutions, has deployed the first Shelf-to-Person PopPick project in the Nordics for one of the biggest online pharmacy wholesalers in the region, Med24.dk. System Teknik partnered on the Denmark project, which includes three PopPick stations and 30 Shelf-to-Person robots, bringing a flexible solution to a region where fixed automation still dominates.
“With the rise of e-commerce, Med24.dk had been struggling with huge sales growth coupled with fast delivery demands from customers in Denmark, Norway, Sweden searching for pharmacy, health and beauty products. Peak season events had also caused considerable strain to their operations,” said Blond Shkodrani, channel partner manager for the Nordics at Geekplus. “Due to their overwhelming success, Med24.dk needed a modular, automated order fulfillment solution for fast, efficient order fulfillment.”
The Geekplus modular Shelf-to-Person solution optimizes warehouse operations using mobile robots to transport shelves. In a region where fixed and cubic solutions have been the trend during recent years, Shelf-to-Person handles goods of all sizes while removing the need for infrastructure investment, making it the most flexible response to order fulfillment challenges.
PopPick workstations use two retrieval arms and four presentation locations to present pickers with multiple, moveable 78-tote racks at one time, resulting in an industry-leading throughput of 450 totes per hour. PopPick can store goods of all types and sizes; the solution is not limited to small pieces and improves ergonomics for workers while picking. It also takes up less space than traditional systems, so customers can use more stations without adding facility space.
“We are very pleased to invest in flooring robots from Geekplus,” said Med24.dk CEO Nils Træholt. “We believe that this new and innovative technology can help us realize our growth ambitions, while maintaining good delivery times for the benefit of our customers.”
Morten Kirch, System Teknik’s CSO, added: “Due to Med24.dk’s growth, we are thrilled to be able to deliver a tailor-made, automated solution that matches their needs.”
Geekplus offers a suite of Goods-to-Person mobile order fulfillment solutions — the only comprehensive robotic offering controlled by a single software platform.
“Through trusted partners like System Teknik, we’re showing customers all over Europe that Geekplus truly is a one-stop shop for modular warehouse automation,” Shkodrani said.
Photo – https://mma.prnewswire.com/media/2395198/Med24_Geekplus_PopPick.jpg Logo – https://mma.prnewswire.com/media/2373458/Geekplus_logo.jpg
View original content:https://www.prnewswire.co.uk/news-releases/geek-and-system-teknik-deploy-first-poppick-solution-in-the-nordics-for-the-pharmacy-group-med24dk-302125816.html
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