trimble advanced route optimization technology - quantm
TRANSCRIPT
Trimble Advanced Route Optimization
Technology - QUANTM
Content
Background
Advanced route planning tool: Quantm
Conventional planning vs Quantm
Case studies
Conclusions
Between vision and viability there are important decisions to make
Around 80% of civil infrastructure projects are delivered over
budget, over time…
The greatest opportunities to contain overall costs and minimise
environmental and social impact are at the planning stage
Conventional planning methods heavily rely on professional
experience and judgment using manual methods
An intelligent route planning tool has been specifically developed
to address the complex planning process
Background
Planning
Feasibility
Design
Engineering
Estimating
Bidding Construction
Operation
Maintenance
Planning
Feasibility
Design
Engineering
Trimble Quantm Technology
Quantm is a revolutionary planning tool for road/rail alignment
selection with combined international expertise
– Scoping study
– Feasibility study
– Value engineering
It automatically generates multiple cost effective and viable
alignments that meet the defined constraints
• Consider all feasible alternatives to help make the best
decisions
• Dramatically reduce planning time and project costs
Quantm technology has been used globally for planning over
40,000km of road and railway projects
• Australia, New Zealand, America, Europe, Russia, Middle East,
Africa, South East Asia, China
Trimble Quantm Technology
…new technologies are transforming the way the world works
Trimble Quantm Technology Digital Terrain Model (DTM) based optimisation engine
Input data: End points, design parameters, cost data, constraints
Comprehensive corridor/alignment search within the study area
Simultaneous 3D optimization with multiple alternatives
Trimble Quantm Technology
Cross sections
Profile view
Alignment
comparison
Alignment
summary
Plan view
Conventional Planning vs Quantm
7
Items Conventional Quantm
Project data Topographical maps, or
DTM limited in size
Digital Terrain Model
200+ millions points
Planning method
Planning time
Manual, 2D
Months, years
Intelligent, 3D interactive
Weeks, productivity up 50%
Construction cost Often over budget Cost control
saving 5~30%
Alignment quality Heavily rely on
experienced engineers
Better fit into terrain
Balanced earthworks
Major structures/
Control points
Potential misjudgment,
missing viable corridors
Never miss viable
corridors/alignments
3D Visualization Limited in length or rely
on third party software Real time rendering
Sensitivity analyses
‘What if’ scenarios
Time consuming
Slow, labor intensive
Fast
quick response
Case Studies: Beijing to Shenyang HSR
660km, 350km/h
3 Corridors, 10 local options
Comprehensive analysis
3 weeks
Example of a large mining rail project – 500km
Corridor Analysis Comparison of 50 Alternatives – alignments blocked by cost
Increasing costs
In this example it allows
the operator to review 50
Alignments x 500km a
total of 25,000km with
earthwork volumes
calculated @ 100m
intervals
TGV High Speed Rail with RAVE:
Lisbon – Madrid 200km, 2005-2007
Lisbon – Porto 300km, 2010
Aveiro – Salamanca 220km, 2009
Porto – Braga 45km, 2008-2010
Braga – Vigo 45km, 2008-2010
Quantm Benefits:
Planning time reduction
Cost reduction by 10%, or over €300millions
Better decision-making by integrating
environmental, community, cultural and
engineering into a single analysis
Case Studies: Portugal TGV Projects
Case Studies: Kyrgyzstan 250km Rail
12
Connect Uzbekistan - Kyrgyzstan to
Kashgar, Xinjiang, China
1:50K ASTER GDEM
4 corridors/alignments, 2 weeks
Real time earthwork and cost
estimation, significant cost reduction
Traditional Method
Topographic maps
Manual estimates on volumes
and costs
6 months study
AECOM, 1748km
Phase I: 16 corridors
Phase II: 7 sections
Explore ‘what if’
scenarios
A$114B (US$91B)
Phase II in 3 months!
8% tunnels -- 29% cost
Case Studies: Australia HSR Project
13 Source: AECOM (2013): High Speed Rail Study Phase 2: Key Findings and Executive Summary
Quantm Summary - Iterative
User Interface
Data
Optimisation DTM
Engine
Scoping Feasibility Design 1:50000 1:10000 1:2000
DTM
Geometrics
Constraints
Cost
Fast /Efficient
Quick Response
Solve Problems
Control Risk
Environmental
Reduce Cost
3D Visualisation
Conclusions
Trimble Quantm assists planners to plan a new
road/rail project more rapidly with lower
construction costs. Quantm makes it easier to:
Consider all feasible alternatives to
help make the best decisions
Plan for sustainability with better
environmental and public outcomes
Invest in a better future by reducing
capital and operating costs
Quantm Video Summary
Trimble Alignment Planning System
Thank You for your kind attention [email protected]
Your Free Demo Download
http://www.trimble.com/alignment/request-free-
demo.aspx