Industry 4.0 is a blend of advanced analytics, Big Data, Robotics & Automation, Artificial Intelligence, Internet of Things (IoT) and Process Digitisation across the business value chain.
Industry 4.0 is a blend of advanced analytics, Big Data, Robotics & Automation, Artificial Intelligence, Internet of Things (IoT) and Process Digitisation across the business value chain.
When computers were introduced in Industry 3.0, it was disruptive thanks to the addition of an entirely new technology. Now, and into the future as Industry 4.0 unfolds, computers are connected and communicate with one another to ultimately make decisions without human involvement. A combination ofRead more
When computers were introduced in Industry 3.0, it was disruptive thanks to the addition of an entirely new technology. Now, and into the future as Industry 4.0 unfolds, computers are connected and communicate with one another to ultimately make decisions without human involvement. A combination of cyber-physical systems, the Internet of Things and the Internet of Systems make Industry 4.0 possible and the smart factory a reality. As a result of the support of smart machines that keep getting smarter as they get access to more data, our factories will become more efficient and productive and less wasteful. Ultimately, it’s the network of these machines that are digitally connected with one another and create and share information that results in the true power of Industry 4.0.
An online retailer Alibaba has opened the largest ‘smart warehouse‘ in China manned by 60 cutting-edge robots. These Wifi-equipped, self-charging machines are responsible for moving goods in the warehouse. They send the goods to human workers, who then arrange the products to be packed and posted toRead more
An online retailer Alibaba has opened the largest ‘smart warehouse‘ in China manned by 60 cutting-edge robots. These Wifi-equipped, self-charging machines are responsible for moving goods in the warehouse. They send the goods to human workers, who then arrange the products to be packed and posted to customers around the world.
Volkswagen- Currently the release of a new car model to the market is a very long and expensive process that no longer meets the growing need of the customers for customized products with increasingly reduced time-to market. This research was based on the release of the 2017 Volkswagen T-Roc in VolkRead more
Volkswagen- Currently the release of a new car model to the market is a very long and expensive process that no longer meets the growing need of the customers for customized products with increasingly reduced time-to market. This research was based on the release of the 2017 Volkswagen T-Roc in Volkswagen Autoeuropa in order to analyze how the current process is carried out and why, and to understand how Industry 4.0 can be implemented and establish a roadmap that can guide this evolution. Finally, a prediction of the evolution of this process is made with the goal at the year of 2025. The development of Industry 4.0 within the automotive industry is only just beginning, however, it is already possible to predict that this implementation will revolutionize automotive production from its core
Bosch Rexroth is driving the next industrial revolution as both a lead operator and lead supplier of Industry 4.0 solutions. With a huge automation portfolio and an abundance of production experience from our own plants worldwide, we can offer leading automation and manufacturing solutions – from siRead more
Bosch Rexroth is driving the next industrial revolution as both a lead operator and lead supplier of Industry 4.0 solutions. With a huge automation portfolio and an abundance of production experience from our own plants worldwide, we can offer leading automation and manufacturing solutions – from single-piece to high-volume production.
A chatbot is an artificial intelligence (AI) software that can simulate a conversation (or a chat) with a user in natural language through messaging applications, websites, mobile apps or through the telephone.
A chatbot is an artificial intelligence (AI) software that can simulate a conversation (or a chat) with a user in natural language through messaging applications, websites, mobile apps or through the telephone.
Deep learning is a machine learning technique that teaches computers to do what comes naturally to humans: learn by example. Deep learning is a key technology behind driverless cars, enabling them to recognize a stop sign, or to distinguish a pedestrian from a lamppost. It is the key to voice controRead more
Deep learning is a machine learning technique that teaches computers to do what comes naturally to humans: learn by example. Deep learning is a key technology behind driverless cars, enabling them to recognize a stop sign, or to distinguish a pedestrian from a lamppost. It is the key to voice control in consumer devices like phones, tablets, TVs, and hands-free speakers.
DMAIC (Define, Measure, Analyze, Improve and Control) refers to a data-driven improvement cycle used for improving, optimizing and stabilizing business processes and designs. The DMAIC improvement cycle is the core tool used to drive Six Sigma projects.
DMAIC (Define, Measure, Analyze, Improve and Control) refers to a data-driven improvement cycle used for improving, optimizing and stabilizing business processes and designs. The DMAIC improvement cycle is the core tool used to drive Six Sigma projects.
Blockchains are decentralized ledgers which, by definition, are not controlled by a central authority. Due to the value stored in these ledgers, bad actors have huge economic incentives to try and cause faults. That said, Byzantine Fault Tolerance, and thus a solution to the Byzantine Generals’ ProbRead more
Blockchains are decentralized ledgers which, by definition, are not controlled by a central authority. Due to the value stored in these ledgers, bad actors have huge economic incentives to try and cause faults. That said, Byzantine Fault Tolerance, and thus a solution to the Byzantine Generals’ Problem for blockchains is much needed.
In the absence of BFT, a peer is able to transmit and post false transactions effectively nullifying the blockchain’s reliability. To make things worse, there is no central authority to take over and repair the damage.
Byzantine Fault Tolerance is the characteristic which defines a system that tolerates the class of failures that belong to the Byzantine Generals’ Problem. Byzantine Failure is the most difficult class of failure modes. It implies no restrictions, and makes no assumptions about the kind of behaviorRead more
Byzantine Fault Tolerance is the characteristic which defines a system that tolerates the class of failures that belong to the Byzantine Generals’ Problem. Byzantine Failure is the most difficult class of failure modes. It implies no restrictions, and makes no assumptions about the kind of behavior a node can have (e.g. a node can generate any kind of arbitrary data while posing as an honest actor).
Byzantine Faults are the most severe and difficult to deal with. Byzantine Fault Tolerance has been needed in airplane engine systems, nuclear power plants and pretty much any system whose actions depend on the results of a large amount of sensors. Even SpaceX was considering it as a potential requirement for their systems.
What is Industry 4.0?
Ashish Jaiswal
Industry 4.0 is a blend of advanced analytics, Big Data, Robotics & Automation, Artificial Intelligence, Internet of Things (IoT) and Process Digitisation across the business value chain.
Industry 4.0 is a blend of advanced analytics, Big Data, Robotics & Automation, Artificial Intelligence, Internet of Things (IoT) and Process Digitisation across the business value chain.
See lessWhat is Industry 4.0?
Ashish Jaiswal
When computers were introduced in Industry 3.0, it was disruptive thanks to the addition of an entirely new technology. Now, and into the future as Industry 4.0 unfolds, computers are connected and communicate with one another to ultimately make decisions without human involvement. A combination ofRead more
When computers were introduced in Industry 3.0, it was disruptive thanks to the addition of an entirely new technology. Now, and into the future as Industry 4.0 unfolds, computers are connected and communicate with one another to ultimately make decisions without human involvement. A combination of cyber-physical systems, the Internet of Things and the Internet of Systems make Industry 4.0 possible and the smart factory a reality. As a result of the support of smart machines that keep getting smarter as they get access to more data, our factories will become more efficient and productive and less wasteful. Ultimately, it’s the network of these machines that are digitally connected with one another and create and share information that results in the true power of Industry 4.0.
See lessHow can business benefit from Industry 4.0? (Use Cases)
Ashish Jaiswal
An online retailer Alibaba has opened the largest ‘smart warehouse‘ in China manned by 60 cutting-edge robots. These Wifi-equipped, self-charging machines are responsible for moving goods in the warehouse. They send the goods to human workers, who then arrange the products to be packed and posted toRead more
An online retailer Alibaba has opened the largest ‘smart warehouse‘ in China manned by 60 cutting-edge robots. These Wifi-equipped, self-charging machines are responsible for moving goods in the warehouse. They send the goods to human workers, who then arrange the products to be packed and posted to customers around the world.
See lessHow can business benefit from Industry 4.0? (Use Cases)
Ashish Jaiswal
Volkswagen- Currently the release of a new car model to the market is a very long and expensive process that no longer meets the growing need of the customers for customized products with increasingly reduced time-to market. This research was based on the release of the 2017 Volkswagen T-Roc in VolkRead more
Volkswagen- Currently the release of a new car model to the market is a very long and expensive process that no longer meets the growing need of the customers for customized products with increasingly reduced time-to market. This research was based on the release of the 2017 Volkswagen T-Roc in Volkswagen Autoeuropa in order to analyze how the current process is carried out and why, and to understand how Industry 4.0 can be implemented and establish a roadmap that can guide this evolution. Finally, a prediction of the evolution of this process is made with the goal at the year of 2025. The development of Industry 4.0 within the automotive industry is only just beginning, however, it is already possible to predict that this implementation will revolutionize automotive production from its core
See lessHow can business benefit from Industry 4.0? (Use Cases)
Ashish Jaiswal
Bosch Rexroth is driving the next industrial revolution as both a lead operator and lead supplier of Industry 4.0 solutions. With a huge automation portfolio and an abundance of production experience from our own plants worldwide, we can offer leading automation and manufacturing solutions – from siRead more
Bosch Rexroth is driving the next industrial revolution as both a lead operator and lead supplier of Industry 4.0 solutions. With a huge automation portfolio and an abundance of production experience from our own plants worldwide, we can offer leading automation and manufacturing solutions – from single-piece to high-volume production.
https://www.boschrexroth.com/en/xc/trends-and-topics/industry-4-0/connected-industry-1
See lessWhat is a Chatbot?
Ashish Jaiswal
A chatbot is an artificial intelligence (AI) software that can simulate a conversation (or a chat) with a user in natural language through messaging applications, websites, mobile apps or through the telephone.
A chatbot is an artificial intelligence (AI) software that can simulate a conversation (or a chat) with a user in natural language through messaging applications, websites, mobile apps or through the telephone.
See lessWhat is Deep Learning?
Ashish Jaiswal
Deep learning is a machine learning technique that teaches computers to do what comes naturally to humans: learn by example. Deep learning is a key technology behind driverless cars, enabling them to recognize a stop sign, or to distinguish a pedestrian from a lamppost. It is the key to voice controRead more
Deep learning is a machine learning technique that teaches computers to do what comes naturally to humans: learn by example. Deep learning is a key technology behind driverless cars, enabling them to recognize a stop sign, or to distinguish a pedestrian from a lamppost. It is the key to voice control in consumer devices like phones, tablets, TVs, and hands-free speakers.
See lessWhat is DMAIC?
Ashish Jaiswal
DMAIC (Define, Measure, Analyze, Improve and Control) refers to a data-driven improvement cycle used for improving, optimizing and stabilizing business processes and designs. The DMAIC improvement cycle is the core tool used to drive Six Sigma projects.
DMAIC (Define, Measure, Analyze, Improve and Control) refers to a data-driven improvement cycle used for improving, optimizing and stabilizing business processes and designs. The DMAIC improvement cycle is the core tool used to drive Six Sigma projects.
See lessWhat is Practical Byzantine Fault Tolerance algorithm (PBFT) and how it is useful in Blockchain scenario?
Ashish Jaiswal
Blockchains are decentralized ledgers which, by definition, are not controlled by a central authority. Due to the value stored in these ledgers, bad actors have huge economic incentives to try and cause faults. That said, Byzantine Fault Tolerance, and thus a solution to the Byzantine Generals’ ProbRead more
Blockchains are decentralized ledgers which, by definition, are not controlled by a central authority. Due to the value stored in these ledgers, bad actors have huge economic incentives to try and cause faults. That said, Byzantine Fault Tolerance, and thus a solution to the Byzantine Generals’ Problem for blockchains is much needed.
In the absence of BFT, a peer is able to transmit and post false transactions effectively nullifying the blockchain’s reliability. To make things worse, there is no central authority to take over and repair the damage.
See lessWhat is Practical Byzantine Fault Tolerance algorithm (PBFT) and how it is useful in Blockchain scenario?
Ashish Jaiswal
Byzantine Fault Tolerance is the characteristic which defines a system that tolerates the class of failures that belong to the Byzantine Generals’ Problem. Byzantine Failure is the most difficult class of failure modes. It implies no restrictions, and makes no assumptions about the kind of behaviorRead more
Byzantine Fault Tolerance is the characteristic which defines a system that tolerates the class of failures that belong to the Byzantine Generals’ Problem. Byzantine Failure is the most difficult class of failure modes. It implies no restrictions, and makes no assumptions about the kind of behavior a node can have (e.g. a node can generate any kind of arbitrary data while posing as an honest actor).
Byzantine Faults are the most severe and difficult to deal with. Byzantine Fault Tolerance has been needed in airplane engine systems, nuclear power plants and pretty much any system whose actions depend on the results of a large amount of sensors. Even SpaceX was considering it as a potential requirement for their systems.
See less