1. Smarter, Better, Faster

2. Fiber Planning - Smarter, Better, Faster
Getting more fiber in the ground to support more capacity within the same footprint
Utilizing existing capacity

3. Fiber Planning - Smarter, Better, Faster
Market impact
Speed of deployment
Revenue lapse
New deployment methods
Potential roadblocks
Construction logistics
Resource constraints
Poll question before next slide

4. Fiber Planning - Smarter, Better, Faster
Engineering impact
Automate the process
Planned vs Preliminary designs
Not autonomous (HITL)

5. Fiber Planning - Smarter, Better, Faster
Planned design: initial routing that accounts for all required service sites
Preliminary design: constructible network route with telecom features pending a construction ride out

6. What are the tools for automation in network design?
Machine-prescribed routes
Machine informed designs
Single click construction documents
Mobile updates & redlines
GIS System of Record

7. Machine assisted planning
Kickoff Package: FIM Data Ingest, Eisting Trasmedia, Sites, Tams
Backhaul: prelim route, diversity
Route: Update HLD to consstructilble, aerial placement
Fronthaul: Determine prelim routes, placement analysis
Demand: high level demand, prelim fiber sizing, e100 deliverable

8. Machine assisted planning
864 96
Fiber sizing and costing
Source data and sites
Backhaul diversification
Backhaul (Environment, Placement)
Demand allocation (Sites, Sparing) 8 12 1
Business influencers
Fronthaul (Environment, Placement)
= Constructability
Existing infrastructure
Fronthaul diversification
QA/QC

9. Machine assisted preliminary design
Data Upload: Ingest HLD, Review demand, QC
Demand: ID demand allocation, validate design specs, QC
Netowrk Elements: Laydown network elements, QC
Permit/Const: MLD delivery package for permitting

10. Machine assisted preliminary design
Laydown Network Elements
Route Constructability
864 96
Fiber cables
Splice closures
Slack Loops
Risers
Structure Placement
Planned Route
Demand Allocation 8 12 1
Identify Poles
= Constructability
Bill of Materials

11. General Output Example

12. What happens when you add automation?
Pursue more revenue opportunities
Realize revenue faster
Time to Construction Reduced
Increase your engineering efficiency
Scale your resources to the market
3-GIS Saas Model available

13. Why do you want to add automation now? Can SaaS Solutions Can Help?
consulting group can get their customers proposals complete using Automation and Saas Solutions

14. How can automation improve your engineering projects?
Manage and track the continual change in requirements
Track data in the process to make continuous improvement
Deliver projects in a consistent format and form
Eliminate the duplication of efforts
Define and measure your project goals

15. What is the process with automation?
Planning and design
Then
Now
Start
Collect Base Data
Preliminary Design
Preliminary Design
Verification
Verification
Final Design
Final Design
Document Output
Document Output
Construction Progress
Construction Progress
Automation
As-Built
As-Built
Troubleshoot Network
Troubleshoot Network
Technology Enabled
Extend Existing Network
Extend Existing Network
Field Updates
Field Updates
Manual
Network Utilization
Network Utilization
Network Information
Network Information
Maintain

16. Productivity 5x faster vs CAD using 3-GIS Smart Systems
FTTx by the numbers
Conventional Desktop (CAD)
Man Weeks: 78
Man Months: 20
Resources: 12
20,000 Premises
Productivity 5x faster vs CAD using 3-GIS Smart Systems
3-GIS Live
Man Weeks: 39
Man Months: 10
Resources: 6
18,000 Premises
3-GIS Live w/Analytics
Man Weeks: 12
Man Months: 3
Resources: 3
5,000 Premises

17. Contact Details Fiber densification David Stoner www.3-GIS.com