Post by khatunejannat on Feb 15, 2024 6:22:59 GMT -5
With the invention of the steam engine and the subsequent mechanization of manual labor came the First Industrial Revolution. The second came with mass production (Henry Ford). The third wave, more recent, comes from electronic systems and information technologies, and is accompanied by the phenomenon of globalization.
In recent years, some schools of thought have ventured the idea that we are at the threshold of a new industrial era, which they have come to call the Fourth Industrial Revolution, or Industry 4.0 . According to certain experts belonging to the most industrialized industries and nations on the planet, this is a goal toward which we must move steadily. For example, sectors such as automobiles and aeronautics (already highly digitalized) could be considered today as industries close to the 4.0 concept.
Industry 4.0 is directly related to digitalization . At this time, its development has reached machine tools, which range from cloud control to big data analysis; This means that Cuba Email List the amount of data will experience exponential growth thanks to the incorporation of IIoT (Industrial Internet of Things) capabilities. The informational value of the new machine tool will depend on the software and the machine (these issues have been discussed in recent years by high-level technicians at different international symposiums).
It is very important, for all this to have a positive impact on productivity , that the contribution of classic technical data referring to the machine tool can be merged, as well as data related to peripheral aspects related to it (e.g.: logistics data with classic technical information, such as cutting data, etc.). As a specific contribution to next-generation digitalization, the fusion between real machines and virtual images presents us with an approach to the vision of automated and connected virtual commissioning of an entire plant.
Some experts predict that the evolution towards the 4.0 paradigm of the machine tool is already a fact (e.g.: configuration of the machine tool through intuitive human-machine interfaces such as web interfaces or haptic interaction devices – stimulus-sense -). The capacity for complete 3D virtual simulation of the real movement of the machine tool will allow for a final validation prior to implementation that will greatly shorten implementation times. The virtual image acts as a facilitator of bidirectional associativity and is responsible for real-time management and execution of process stages throughout the entire life cycle.
Production software in this new virtual-real scenario presupposes an infrastructure of computer systems and functional and interoperable processes. Let us not forget that one of the most important issues of Industry 4.0 is the communication of real objects in production with the help of virtual objects and processes. This rising model has led certain international standards bodies to localize norms, standards, use case content and relationships (which will form the basis for the derivation of standards for the implementation of Industry 4.0 ).
Different experts predict immense potential for companies that fully enter the era of digital transformation . Some have gone so far as to imagine a post-2050 Europe full of ultra-efficient underground factories, bionic robots, biometric controls, etc., carried out and maintained by skilled labor that will gradually abandon manual work for work directly or indirectly related to software. The most common tasks will be related to production simulation functions and efficiency control.
In recent years, some schools of thought have ventured the idea that we are at the threshold of a new industrial era, which they have come to call the Fourth Industrial Revolution, or Industry 4.0 . According to certain experts belonging to the most industrialized industries and nations on the planet, this is a goal toward which we must move steadily. For example, sectors such as automobiles and aeronautics (already highly digitalized) could be considered today as industries close to the 4.0 concept.
Industry 4.0 is directly related to digitalization . At this time, its development has reached machine tools, which range from cloud control to big data analysis; This means that Cuba Email List the amount of data will experience exponential growth thanks to the incorporation of IIoT (Industrial Internet of Things) capabilities. The informational value of the new machine tool will depend on the software and the machine (these issues have been discussed in recent years by high-level technicians at different international symposiums).
It is very important, for all this to have a positive impact on productivity , that the contribution of classic technical data referring to the machine tool can be merged, as well as data related to peripheral aspects related to it (e.g.: logistics data with classic technical information, such as cutting data, etc.). As a specific contribution to next-generation digitalization, the fusion between real machines and virtual images presents us with an approach to the vision of automated and connected virtual commissioning of an entire plant.
Some experts predict that the evolution towards the 4.0 paradigm of the machine tool is already a fact (e.g.: configuration of the machine tool through intuitive human-machine interfaces such as web interfaces or haptic interaction devices – stimulus-sense -). The capacity for complete 3D virtual simulation of the real movement of the machine tool will allow for a final validation prior to implementation that will greatly shorten implementation times. The virtual image acts as a facilitator of bidirectional associativity and is responsible for real-time management and execution of process stages throughout the entire life cycle.
Production software in this new virtual-real scenario presupposes an infrastructure of computer systems and functional and interoperable processes. Let us not forget that one of the most important issues of Industry 4.0 is the communication of real objects in production with the help of virtual objects and processes. This rising model has led certain international standards bodies to localize norms, standards, use case content and relationships (which will form the basis for the derivation of standards for the implementation of Industry 4.0 ).
Different experts predict immense potential for companies that fully enter the era of digital transformation . Some have gone so far as to imagine a post-2050 Europe full of ultra-efficient underground factories, bionic robots, biometric controls, etc., carried out and maintained by skilled labor that will gradually abandon manual work for work directly or indirectly related to software. The most common tasks will be related to production simulation functions and efficiency control.