Badan Pengkajian dan Penerapan Teknologi Peranan Inovasi Teknologi Mekatronika Untuk Mewujudkan Kemandirian Industri Nasional. Case: Industry 4.0 Danny M Gandana Badan Pengkajian dan Penerapan Teknologi Depok, 17 Juli 2018

Industrial Evolution 4. Industrial revolution 3. Industrial revolution Based on cyber-physical- Systems. Connecting al physical system with virtual & cyber Processes. 3. Industrial revolution Through the use of electronics and IT further progression in autonomous production 2. Industrial revolution Introducing mass production lines powered by electric energy 1. Industrial revolution Introducing mechanical production machines powered by water and steam End of the 18th century. Beginning of the 20th century 70th Industry 1.0 Industry 3.0 Industry 2.0 Industry 4.0 Level of complexity Today Source: DFKI/Bauer IAO

Phases of earlier 3 Industrial Revolutions 1760 to 1840 - Ushered in Mechanical production; railways and steam engine 1870 to 1940 - Mass production; electricity and assembly line 1960 to 2014 - Computers; semi conductors, main frame computing, personal devices, internet, Big data

Did not exist in 2006 iPhone iPad Kindle 4G Uber Airbnb Android Oculus Instagram Snapchat WhatsApp

Time to reach 100 Million customers Telephone 75 Years Web 7 Years Facebook 4 Years Instagram 2 Years Pokémon Go 1 Month

Today’s Factory

Tomorrow’s Factory

Examples of Product evolution: Connected and smart products Harvard Business Review

Industry 4.0 When can a company be defined as 4.0? For a company to be considered 4.0, it must include the following characteristics: Interoperability – machines, equipment, sensors and people are interconnected. Information transparency — the system is capable of creating a virtual copy o the physical world via data gathered from a series of sensors. Technical assistance – the whole system is designed to support man in making decisions and solving problems, and it helps him in complex or dangerous tasks. Decentralised decision-making  — the cyber-physical system is capable of making simple decisions autonomously.

Building blocks of Industry 4.0 Autonomous Robots Simulation Horizontal and vertical system integration Industrial Internet of Things Cyber Security Additive Mfg Augmented reality Big data analytics

Instrumentation & Control Tantangan & Peluang Mekatronika pada Industri 4.0 Mechatronics is synergistic integration of mechanical engineering, electronics and intelligent computer control in design and manufacture of products and processes Communication Production System Instrumentation & Control Mechanical Microectronics

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI IDEA BUSINESS DEVELOMENT PRODUCT DEVELOMENT Material Smart Car INDUSTRY

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI IDEA PRODUCT DEVELOMENT BUSINESS DEVELOMENT Material INDUSTRY Missile

Tantangan & Peluang Mekatronika pada Industri 4.0 KOPETENSI IDEA PRODUCT DEVELOMENT BUSINESS DEVELOMENT ? PRODUCT INDUSTRY

PENUTUP: SDM pada Industri 4.0

Kebijakan Pemanfaatan Mekatronika pada Industri 4.0 PENUTUP: Kebijakan Pemanfaatan Mekatronika pada Industri 4.0 Perkuat KOPETENSI Persiapkan Fasilitas PRODUCT DEVELOMENT Permudah Munculnya Kreatifitas Permudah BUSINESS DEVELOMENT Material 1 2 3 4 Revitalisasi Sistem Pendidikan Perkuat Triple Helix Permudah Ijin usaha Perbaiki Infrastruktur usaha Kebijakan Fiskal Perkuat incubator Industri Persiapkan Pusat Inovasi dan Industrial Park PATEN Perkuat Pusat Penelitian