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Future Manufacturing, G1 (IBS3 Xelen, IPCM3 Vivian, IBS4 Cody, DFLL3 Keely…
Future Manufacturing
Benefits
Quality Improvement
Advanced sensors
Real-time data analysis
Resource Conservation
Minimize waste and energy consumption
Reducing the environmental impact
Flexibility
Reconfigure production lines
Fast-paced business environment
Safety
Reducing the risk of workplace
Improving overall worker safety
Enhanced Efficiency
Leverage data analytics
Reduced downtime
Lower operational costs
Data-Driven Decision Making
Predictive maintenance
Demand forecasting
Better decision-making
Conclusion
Integration of AI and IoT
More intelligent
Self-regulating
Customization at Scale
Producing highly customized products
Growing consumer demand
Global Supply Chain Resilience
Building more resilient supply chains
Distributed and local manufacturing capabilities
Reskilling Workforce
Upskilled to handle more complex tasks
Tech-focused roles
Regulatory and Ethical Considerations
Evolve to ensure responsible
Transparent use of these technologies
Environmental Responsibility
Renewable energy sources
Reduced waste becoming the norm
Siemens: The Autonomous Factory of the Future
Value Proposition
Finished
Realize customers' ideas
Manufacture
Economical & save valuable resources
Have a separate solution
Target Audience
Sustainable mindset
Fast and customized
What
are they doing:question:
Receive supplied materials
Identify & Check
Trigger material transportation
Unload pallets
Assembling
:star: Self-organizing production
How
are those possible:question:
Key Activities
:one: Decide the
MOST
appropriate factory
:two:
Self-organizing production
Collaborate
Adjust dynamically
Exchange information
Feedback & Critical decisions
Key Resources
:one: Intelligence systems
:two: Autonomous units
:three: Human expertises
Partners
Manufacturers providing various materials
Sustainable Manufacturing
What
is sustainable manufacturing?
:arrow_down: Negative impacts of environment
Reducing
pollution
and
emissions
Minimize the
waste
of material and resource
Lowering consumption of
energy
Why
does sustainable manufacturing matter?
Corporate
Expectations
of customer and investor
Government
regulations
Increased
costs
in materials and energy
Cost-effective
Environment
Global warming
Climate changing
Energy crisis
How
to achieve sustainable manufacturing in the future?
Implementation
Management
Cross-departmental collaboration
Long-term strategy
Leadership
Schneider Electric
Customer
Smart factory program
Automation
Fast throughput time
EcoStruxure (Smart system)
Save 25% of energy, Reduce 30%~ 50%maintenance costs
Troubleshoot
Supplier
Supplier program
Reduce 50% Scope 3 emission till 2025
Approaches
Automate
Enhance efficiency
Smart systems
Real-time data
Improved efficiency
Recycling
Increase recycle materials in your product
Reduce waste
Renewable energy
Sustainable
Conserve
Planting tree
The Fourth Industrial Revolution(4IR)
Manufacturing Processes
Sustainability
Decarbonization
Electrification
Green manufacturing
:recycle:
Automation
Big data
Cost-efficiency
Digital twins
Production flexibility
Collaborative robots
The Workforce of the Future
Bridge the skills gap
operational technology (OT)
Upskilling and Reskilling
Integration of Technologies
Digital tools
Smart Industry Readiness Index (SIRI)
Benchmark company's progress
Global Lighthouse Network
Artificial Intelligence (AI)
Automation
G1
IBS3 Xelen
IPCM3 Vivian
IBS4 Cody
DFLL3 Keely
IBS2 Emily
Additive manufacturing
Allocate resources
Create workflows
Self-adapting safety functions