Edge Computing: Revolutionizing Connectivity and Data Management Across Industries

The global edge computing market size is expected to reach USD 155.90 billion by 2030, and is expected to expand at 36.9% CAGR from 2024 to 2030, according to a new report by Grand View Research, Inc. Artificial Intelligence (AI) integration into the edge environment is projected to drive market growth. An edge AI system is estimated to help businesses make decisions in real time in milliseconds. The need to minimize privacy concerns associated while transmitting large amounts of data, as well as latency and bandwidth issues that limit an organization's data transmission capabilities, are factors projected to fuel market growth in the coming years.

Edge Computing Market Report Highlights 

Over the projected period, the edge server segment is expected to be the booming hardware segment. The increased demand for edge servers throughout several industrial verticals accounts for the segment's promising growth prospects

In terms of application, the AR/VR segment is projected to progress at a substantial CAGR because of the developing cellular network, which offers potential development for edge computing. For instance, to provide a high-quality VR experience to users, Ericsson has improved its radio infrastructure and 5G core

In terms of industry vertical, the data center segment is projected to experience the highest CAGR over the estimated period. This can be ascribed to the fact that edge data centers overcome inconsistent connections and compute and store data close to the end-user

The Asia Pacific region is anticipated to expand at the highest CAGR over the estimated period due to the advent of 5G in the region and the increasing number of IoT-incorporated devices. The evolution of telco edge infrastructure to support 5G-enabled applications is expected to be accelerated by the launch of 5G networks

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Machinery control and precision monitoring are a few use cases that are well-suited for AI on the edge. The latency requirement for a fast-running production line must be maintained to a bare minimum, which can be accomplished by using edge computing. Bringing data processing closer to the manufacturing facility can prove to be extremely important, which can be accomplished using AI. Artificial intelligence-based edge devices can be utilized in a wide range of end-point devices, including sensors, cameras, smartphones, and other IoT devices.

Moreover, the telecom edge is estimated to grow exponentially over the projected period. The telecom edge executes computing adjacent to the telco's mini-data centers, which are operated on the telco-owned property. Several telecom operators, including Telstra and Telefonica, are developing prototypes and pilot projects of open-access networks integrated with edge computing. Edge will be at the forefront of the telecom industry once 5G technology is fully deployed. The telecom industry is in a great position to enhance edge computing, but telecom businesses risk being abridged by irrelevant edge suppliers if they do not move up the value chain.

Presently, Edge computing use cases have outpaced initial infrastructure deployments, and are projected to provide momentum to edge computing infrastructure and use case investments. Edge computing is predicted to become more ubiquitous and evolve toward platform-centric solutions over the projection period. With this development, edge platforms can reduce the infrastructure intricacy using orchestration software and sophisticated management, and provide user-friendly environments for programmers to implement innovative edge services and applications.

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Rethink! The Tinkering Lab at IIT Roorkee proudly unveiled its latest facility, established in collaboration with Technology Innovation Hub, iHub DivyaSampark. This cutting-edge space is dedicated to research and innovation in Cyber Physical Systems. Equipped with state-of-the-art features such as Motion Sensing Cameras and drone kits, alongside comprehensive support for drone parts manufacturing, the facility represents a significant milestone in advancing exploration and innovation in emerging technologies. 

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#Первая промышленная революция – это переход от ручного труда к машинному. #Вторая – распространение применения электричества и химикатов. #Третья – применение информационно-коммуникационных технологий и формирование #постиндустриального общества. Ну а #четвёртая , происходящая прямо #сейчас, – это внедрение #киберфизических систем в производстве. #Экономисты и #социологи говорят, что эти #перемены скоро затронут вообще всех. Киберфизическая система -информационно-технологическая #концепция , подразумевающая интеграцию вычислительных ресурсов в физические процессы. В такой системе #датчики , #оборудование и информационные системы соединены на протяжении всей цепочки создания стоимости, выходящей за рамки одного предприятия или бизнеса. #Этисистемы взаимодействуют друг с другом с помощью стандартных интернет-протоколов для прогнозирования, самонастройки и адаптации к изменениям. #будущеездесь #умныйгород #четвертаяволна #технология #инновации #интеграция #киберфизическийзавод #a75 #it #cyber #cyberphysicalsystems

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Machine learning (ML) is the scientific study of algorithms and statistical models that computer systems use to effectively perform a specific task without using explicit instructions, relying on patterns and inference instead. It is seen as a subset of artificial intelligence. Machine learning algorithms build a mathematical model of sample data, known as "training data", in order to make predictions or decisions without being explicitly programmed to perform the task.:2 Machine learning algorithms are used in the applications of email filtering, detection of network intruders, and computer vision, where it is infeasible to develop an algorithm of specific instructions for performing the task. Machine learning is closely related to computational statistics, which focuses on making predictions using computers. The study of mathematical optimization delivers methods, theory and application domains to the field of machine learning. Data mining is a field of study within machine learning, and focuses on exploratory data analysis through unsupervised learning. In its application across business problems, machine learning is also referred to as predictive analytics. #machinelearning Follow @insta_robot0 #automations#insdusry4.o #artificialintelligence Follow @insta_robot0 #computerengineering #computerscience #computertechnology #robot #robotics Follow @insta_robot0 #cyberphysicalsystems #manufacturing #newtechnology Follow @insta_robot0 (at Los Angeles, California) https://www.instagram.com/p/BuDl4YZAmRf/?utm_source=ig_tumblr_share&igshid=108hwt18c6uf1

AUTOMATED TRANSPORTATION We’re already seeing the beginnings of self-driving cars, though the vehicles are currently required to have a driver present at the wheel for safety. Despite these exciting developments, the technology isn’t perfect yet, and it will take a while for public acceptance to bring automated cars into widespread use. Google began testing a self-driving car in 2012, and since then, the U.S. Department of Transportation has released definition of different levels of automation, with Google’s car classified as the first level down from full automation. Other transportation methods are closer to full automation, such as buses and trains. For more details follow @insta_robot0 #aritificalintelligence #Follow @insta_robot0 #automations#insdusry4.o #artificialintelligence Follow @insta_robot0 #automotive #computerengineering #computerscience #computertechnology #robot #robotics #automotive #automobile#industrialtechnology Follow @insta_robot0 #cyberphysicalsystems #driverlesscars #train#businesstechnology #manufacturing #newtechnologysystem Follow @insta_robot0 (at Los Angeles, California) https://www.instagram.com/p/BuCRjUAg2cy/?utm_source=ig_tumblr_share&igshid=gwidtriuzi7s

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Construction 3D Printing (c3Dp) or 3D Construction Printing (3DCP) refers to various technologies that use 3D printing as a core method to fabricate buildings or construction components. Alternative terms are also in use, such as Large scale Additive Manufacturing (LSAM), or Freeform construction (FC), also to refer to sub-groups, such as '3D Concrete', used to refer to concrete extrusion technologies. There are a variety of 3D printing methods used at construction scale, these include the following main methods: extrusion (concrete/cement, wax, foam, polymers), powder bonding (polymer bond, reactive bond, sintering) and additive welding. 3D printing at a construction scale will have a wide variety of applications within the private, commercial, industrial and public sectors. Potential advantages of these technologies include faster construction, lower labor costs, increased complexity and/or accuracy, greater integration of function and less waste produced. A number of different approaches have been demonstrated to date which include on-site and off-site fabrication of buildings and construction components, using industrial robots, gantrysystems and tethered autonomous vehicles. Demonstrations of construction 3D printing technologies to date have included fabrication of housing, construction components (cladding and structural panels and columns), bridges and civil infrastructure, artificial reefs, follies and sculptures. The technology has seen a significant increase in popularity in recent years with many new companies, including some backed up by prominent names from the construction industry and academia. This led to several important milestones, such as the first 3D printed building, the first 3D printed bridge the first 3D printed part in a public building, the first living 3D printed building in Europe and CIS, the first 3D printed building in Europe fully approved by the authorities (COBOD International), among many others. Follow @insta_robot0 #automations#insdusry4.o #artificialintelligence Follow @insta_robot0 #computerengineering #computerscience #computertechnology #robot #robotics Follow @insta_robot0 #cyberphysicalsystems #manufacturing (at Los Angeles, California) https://www.instagram.com/p/BuCKTdIglp6/?utm_source=ig_tumblr_share&igshid=jr93lii4ct2u

Design principles There are four design principles in Industry 4.0. These principles support companies in identifying and implementing Industry 4.0 scenarios. Interconnection: The ability of machines, devices, sensors, and people to connect and communicate with each other via the Internet of Things (IOT) or the Internet of People (IOP) Information transparency: The transparency afforded by Industry 4.0 technology provides operators with vast amounts of useful information needed to make appropriate decisions. Interconnectivity allows operators to collect immense amounts of data and information from all points in the manufacturing process, thus aiding functionality and identifying key areas that can benefit from innovation and improvement. Technical assistance: First, the ability of assistance systems to support humans by aggregating and visualizing information comprehensively for making informed decisions and solving urgent problems on short notice. Second, the ability of cyber physical systems to physically support humans by conducting a range of tasks that are unpleasant, too exhausting, or unsafe for their human co-workers. Decentralized decisions: The ability of cyber physical systems to make decisions on their own and to perform their tasks as autonomously as possible. Only in the case of exceptions, interferences, or conflicting goals, are tasks delegated to a higher level. Follow @insta_robot0 #automations#insdusry4.o #artificialintelligence Follow @insta_robot0 #computerengineering #computerscience #computertechnology #robot #robotics Follow @insta_robot0 #cyberphysicalsystems #manufacturing #newtechnology Follow @insta_robot0 (at Los Angeles, California) https://www.instagram.com/p/Bt_cxtVAihr/?utm_source=ig_tumblr_share&igshid=1cc5mrttlg4pz

Industry 4.0 is a name given to the current trend of automation and data exchange in manufacturingtechnologies. It includes cyber-physical systems, the Internet of things, cloud computing and cognitive computing. Industry 4.0 is commonly referred to as the fourth industrial revolution. Industry 4.0 fosters what has been called a "smart factory". Within modular structured smart factories, cyber-physical systems monitor physical processes, create a virtual copy of the physical world and make decentralized decisions. Over the Internet of Things, cyber-physical systems communicate and cooperate with each other and with humans in real-time both internally and across organizational services offered and used by participants of the value chain. Follow @insta_robot0 #automations#insdusry4.o #artificialintelligence Follow @insta_robot0 #computerengineering #computerscience #computertechnology #robot #robotics Follow @insta_robot0 #cyberphysicalsystems #manufacturing #newtechnology Follow @insta_robot0 (at Los Angeles, California) https://www.instagram.com/p/Bt_a19PAAC4/?utm_source=ig_tumblr_share&igshid=16hwldqwb4u79