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BNA_G2_The 4th Industrial Revolution, enhance connectivity and promote…
BNA_G2_The 4th Industrial Revolution
What is a smart factory?
A digitally interconnected network entity system
background
driving factors
How it works?
structure
advantage
Key technology
Transformation steps
Step-by-step implementation
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Continuous monitoring and evaluation
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System Audit
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Data as the core
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Big Data
Digital Doppelganger
Machine Learning
Additive Manufacturing (3D Printing)
Artificial Intelligence (AI)
Virtual Reality (VR) and Augmented Reality (AR)
Cloud connection
Blockchain
Resiliency and security
Smart factory technology makes it easier for companies to implement more environmentally friendly, safe and responsible manufacturing practices.
Blockchain and RFID sensors can ensure material provenance and quality control.
Product quality and customer experience
Rapid customization and the ability to respond to changing trends mean products are closely linked to customer needs.
Productivity and efficiency
Smart factory technology reduces the need for reactive measures and makes supply chain management more resilient and responsive.
Data analysis
Machine learning and smart business systems use advanced analytics and data management solutions to make sense of the data collected.
Smart factory automation
Workflows and processes are continuously monitored and optimized
Data collection
Artificial intelligence and modern database technologies allow the collection of all kinds of data across business, supply chain and global scales.
The Industrial Internet of Things (IIoT) allows connected machines to collect data into the system.
Data-driven
Smart factories not only manage and analyze data, but also learn from experience.
Continuous optimization
Smart factories continuously improve procedures to self-correct and self-optimize to improve resilience, productivity and safety
Integrated ecosystem
Smart factories integrate machines, people and big data into a digitally connected ecosystem.
consumer expectations
Rising consumer demand for next-day delivery (the Amazon effect) drives the development of smart factory technology
Supply chain resilience
Manufacturers face risks of reduced dependence on international partners and operational disruptions
Business demand
Digital transformation is imperative for supply chain and manufacturing operations to remain competitive and resilient in the 2020s
Industry 4.0 is driven by digital transformation and smart automation.
The first three industrial revolutions were driven by steam engines, assembly lines, and computers.
Smart factories are part of Industry 4.0 or the fourth industrial revolution
The 5 Pillars of Industry 4.0
Introduction
Core Principle
Integrate the entire manufacturing ecosystem
Incoming raw materials
:arrow_left:
Final inspection and shipping.
Main Objectives
Reduce waste and defects
Optimize resource allocation
Shorten production lead times
Lower costs
Pillar 1: Lean, Kaizen, and 6S
Kaizen
A Japanese concept "improvement"
"Continuous change for the better."
6S
Sort
Shine
Sustain
Safeguard
Set in Order
Standardize
:star:
Maintaining an organized workplace
Pillar 2: Connected Systems
Device Connectivity
Manufacturing cells, equipment, and operators connect
wired :red_circle:
Centralized Database Via
wireless :red_cross:
Industrial Internet of Things (IIoT)
Wireless sensors track individual components and update their status in real time.
Data Utilization
Enabling operators to make informed decisions.
Raw material usage
Machine downtime
Bottlenecks
Pillar 3: Data Transparency
Enhanced Visibility:
Operators can monitor the status of their tasks in relation to the overall production flow.
Problem Identification
Transparency makes it easier to spot and address issues, such as production bottlenecks
Pillar 4: Automation
Automating Repetitive Tasks
Reliable
Physically exhausting or potentially hazardous for humans.
Consistent
Ideal
Example
3D scanners can quickly measure parts and detect defects faster than human operators.
Pillar 5: Machine Learning
Predictive and Proactive Systems
Equipment can respond to changing shop floor conditions without human interventio
Example
CNC machines monitor tool usage and schedule sharpening or replacement before tools wear out
Taiwan's Smart City Experience Sharing
Technology Applications
Precision Agriculture
Expansion of AI-driven crop monitoring tools
reduces resource waste
ensuring food security
Telemedicine Innovations
New platforms provide cross-region medical consultations
benefitting 8.54 million residents through accessible healthcare solutions
Global Challenges
Circular Economy Initiatives
Marine debris recycling
carbon capture projects
2050 Net-Zero Goals
Local governments actively align with Sustainable Development Goals (SDGs)
clean energy
waste reduction strategies
Environmental Protection
Protecting Heritage and Nature
Cultural Preservation
Digital Heritage Projects
Use of AR/VR for virtual tours of historic sites
ensures accessibility while protecting physical structures
Sustainable Tourism
Programs promoting eco-tourism
environmental sustainability
Practical Learning
Knowledge and Action
Community Engagement
"New Taipei Vote"
"New Taipei Mayor's Mailbox"
E-Learning Expansion
Digital libraries
cloud-based educational tools
Sustainable Development and Convenient Living
Smart Energy Management
renewable energy sources and energy-saving initiatives
LED smart street lighting
reduces carbon emissions significantly
Urban Mobility
Smart transportation systems
real-time traffic monitoring
EV charging networks
Core Values
Taiwan's Global Role
Smart City Project
Over 300 companies have developed 220+ smart services
benefiting millions
showcasing Taiwan's leadership in urban innovation
International Collaboration
Asia's Silicon Valley Project
Positions Taiwan as a Hub for Artificial Intelligence and Internet of Things Development
MediaTek
Financial performance
Quarterly net profit
NT$2.996 billion
A year-on-year increase of 62%
Earnings per share
NT$16.19
year-on-year growth
Third quarter forecast
Revenue forecast
NT$12.35 billion to NT$13.24 billion
Gross profit margin
45.5%至48.5%
Inventory management
Customer consumes inventory
New product plan
Dimensity 9400
Launched in October
3 Nanotechnology
Artificial intelligence function
market expectations
50% annual increase
long term outlook
application specific IC services
Revenue contribution in the second half of next year
Cloud data center market
Custom chip requirements
enhance connectivity and promote green commuting
in areas rich in biodiversity
"circular technology island"
encourage public participation in city governance, fostering collective ownership
empower citizens to contribute to smart city development
a system of interconnected digital technologies and methods
the foundation for intelligent manufacturing.
Avoid
machine learning & artificial intelligence