the beginning of Industry 4.0 as the Fourth Industrial Revolution that combines automation, digitalization and connections between technologists to create an efficient and sustainable manufacturing connection, with the application of Internet of Things technology, Artificial Intelligence (AI) automation, and cloud storage industry 4.0 has a significant impact on production, distribution and ongoing communication.
Automation increases efficiency, automatic programming of production processes is a very important impact for Industry 4.0 robots and automated systems to take over the same tasks over and over again, providing flexibility for human workers to focus on tasks that have more added value than repetitive work, optimizing production systems by combining IoT and data analytics, integrated production systems that can be monitored and optimized directly, weaknesses in production, efficiency, and improving product quality, reducing raw material waste and saving energy use.
Supply chain relationships and transparency, Internet of Things connectivity with several fields such as machinery, devices and other assets along the supply chain makes it easier to track raw materials, monitoring emissions and also reducing waste due to communication errors or delays, traceability of products such as QR and RFID makes it easier to track raw material products into finished products ifromasi mengnai materials, sustainable implementation and transparency of the production process can be applied to consumers, providing trust, prevention of counterfeiting also makes it easier to provide problematic products.
Predictive data analysis created from industrial technology 4.0 dpat is assessed to determine efficiency and sustainability. computer algorithms facilitate equipment failure prediction, maintenance optimization as well as identification of opportunities to reduce energy consumption, Emission Monitoring as well as carbon footprint reduction with IOT sensors and data analytics provide the possibility to check emissions directly, manufacturers can trace sourced sources, develop reduction strategies as well as improve reporting transparency ang support carbon footprint and climate change
Changes in the use of labor for Industry 4.0 create the need for new skills such as the ability to work with digital technology and data analysis, mapping sustainable human resources development as a way to reduce skill gaps, challenges for the implementation of Industry 4.0 with several challenges such as crew facilities, high capital and vulnerability to companies that always exist, besides sustainability among IoT that allows monitoring lalngsung how the production process and mnengoptimize raw materials, artificial intelligence membntu analyze predictions how to reduce energy use and menurangai defective products, cloud storage memudahakna penyimapanan large amounts of data efficiently without the need for physical devices, automation of the use of robots to do the work berungan that reduce Limbang and increase the efficiency of raw materials, erkanjautan integrity of the government, industry and academia to work together to market standards berlengjuran, research, Bersa UGA berbagai, government-funded ang incentives can be a driver of sustainable ang technology adoption
Intelligent manufacturing combined AI and IoT technologiesgive predictions of market needs, stock management with autotais also more efficient logistics perncanaan, circular economy industr4. 0 motivates to implement the continuation of the air economy that re-utilize libah to be promised raw materials, reduce the use of mangrove baan to memperplanjang porudk cycle, the use of renewable energy by mendudkung transition to renewable energy with efisein