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  • Industry 4.0
Germany is the second-largest producer of machine tools in the world, after China. From the advanced German machine tool technology, to explore the development of the machine tool market.
Smart manufacturing utilizes advanced manufacturing technology and provides solutions through AI, the Internet of Things, big data, cloud, edge computing, and other technologies to substitute the production process with an intelligent manufacturing model and customize products according to customer needs.
4.0 Automation technologies, through the IIoT (Industrial Internet of Things) connect, control and monitor networks of manufacturing and processing machines, devices, robots and cloud information in real time via Cloud Monitoring. This allows them to learn, operate and function automatically, minimizing human intervention and optimizing production.
Industrial Internet of Things (Indusrial IoT, or IIoT) is the expansion and use of the Internet of Things (IoT) in industrial applications. Industrial IoT focuses on machine-to-machine (M2M) communication, big data, and machine learning (ML) to make industrial operations more efficient and reliable. IIoT covers the entire industrial application, including robotics, medical equipment, and software-defined production processes.
The goal of Making Indonesia 4.0 is to achieve Indonesia’s entry into the top ten economies in the world by 2030. The roadmap of Indonesia’s Industry 4.0 is the key to enhancing the overall competitiveness of Indonesia’s industry in the future digital era, guiding the implementation of Indonesia’s national strategy, and where the interests are at stake. Cooperation and coordinated implementation between various industries aim to promote inclusive national growth and sustainable community welfare.
As industry 4.0 technology continues to advance, existing data can be harnessed to develop machine-learning solutions that deliver real value, optimize decision making, increase flexibility, and attract top talent.
South Korea is the world's sixth-largest machine tool producer and the world's fifth-largest machine tool consumer, with an average consumption of approximately US$4.33 billion. Among them, nearly 70% of the consumer market's demand is for products provided by local machine tool factories, and only close to 30% of the products must be imported from abroad.
After more than ten years, South Korea has continuously promoted machines to target South Korea smart cities. It has achieved remarkable results in the field of industrial robots and has gradually moved towards commercialization in the field of service robots. Industrial intelligence that enhances industrial competitiveness extends to the realization of the vision of coexisting humans and robots to intelligent life.
Italy has a solid industrial foundation and is the second-largest producer of machine tools market in Europe.
An issue closely related to the smart factory debate concerns the position occupied by industrial production in overall social relationships; in other words, the relationship between factory and society, within which there is a new reflection on the relationship between factories and urban spaces, cities.
The effects of Industry 4.0 in many industries have already been seen, with improvements to existing value propositions emerging, or entirely new ones being developed. In aviation, digital technology has already fundamentally changed the airline industry landscape.
Industry 4.0 has brought about changes in production logic. Through cloud technology and the use of big data, it is possible to monitor the entire production process, automatically detect problems and eliminate obstacles, and at the same time be able to accurately produce and schedule resources, reduce costs and waste of resources, and achieve the most efficient Production. In the future, the new trend of Industry 4.0 will tend to analyze huge amounts of data and manufacture customized products close to the client.
Why has the software industry or the hardware industry been talking about digital transformation in recent years? What is the necessity and challenges of Taiwan's manufacturing industry for digital transformation?
One of the main tenets of Industry 4.0 is data collection. Machine tools will have sensors that will collect many different kinds of data, including data on how much the machine has operated, the conditions it has operated in, and the condition of the components of the tool.
With the complexity of geopolitics, the shortage of talents, the popularity of 5G, and the maturity of Industry 4.0, can companies respond to future challenges? Future manufacturing trends will focus on three main directions: experience, innovation-driven energy, and supply chain restructuring.
Industrial 4.0 revolution swept through the entire manufacturing industry. Various countries and regions are actively deploying Industry 4.0 and smart manufacturing. How does Taiwan respond? How to combine your own advantages to gain a competitive advantage in this global 4.0 manufacturing revolution? Industrial reform involves not only technology, but also the integration and breakthrough of ideas.
"Link" and "Optimization" are the core spirits of Industry 4.0. To create these two key elements, it requires extensive use of automated production, Internet of Things, intelligent robots, supply chain interconnection, and big data.
After "Cloud Computing", a new term "Fog Computing" has been added in recent years. It mainly comes from the phrase "fog is a cloud closer to the ground".
Under the leading policy of "Industry 4.0" in Germany, the manufacturing industry followed the concept of "smart manufacturing", and introduced the digital application of machinery into the factory. Based on the information technology services that belong to the energy economy category, it was imported from cloud software. Optimize the process. This kind of service platform is built on a modular structure that can be flexibly combined and uses AI to assist in providing strategic recommendations to achieve the energy-saving benefits of IoT machines.