Maintenance Decision Support System Intersection I-15 Intersection I-15 and I-70 in Utah and I-70 in Utah Point intervals Point intervals along corridor.

Slides:

Advertisements

Similar presentations

Review 13: Weather.

Advertisements

Thermal Mapping for MDSS Leon Shneider and Andy McDonald Vaisala Road Weather Systems.

So You Want To Buy A Decision Support System? An overview for maintenance managers wanting to invest in advanced road weather information systems (RWIS)

SSI MDSS capabilities Today and Beyond Surface Systems, Inc. Jon Tarleton & Bob Dreisewerd.

Winter Storm ” Snowfall 20 Days of Freezing Rain.

1 Maintenance Decision Support System Pooled Fund Study TPF-5(054) David Huft, South Dakota DOT AASHTO Standing Committee on Highways Palm Desert, CA October.

MDSS Post Demonstration Evaluation Results (and Proposed Solutions) 2003 MDSS Stakeholder Meeting Tuesday, June 17, 2003 Des Moines, Iowa Andy Stern Mitretek.

VII Day-1 Applications and MDSS Pat Kennedy Road Weather Management Program Federal Highway Administration Maintenance Decision Support System (MDSS) Annual.

Seth Linden and Jamie Wolff NCAR/RAL Evaluation of Selected Winter ’04/’05 Performance Results.

Presents A Tutorial on the Maintenance Decision Support System (MDSS) Winter Colorado Test Bed Software Tutorial Based on MDSS Display Versions.

MIT Lincoln Laboratory FHWA Review Robert Hallowell 10/20/2005 Road Condition and Treatment Module Overview, Upgrades, Examples and Limitations Robert.

Arthur Handman Executive Director, Greater Hartford Transit District Arthur Handman Executive Director, Greater Hartford Transit District WEATHER INFORMATION.

Joe Turner, PE Disaster Recovery Engineer. DIVISIONS AND DISTRICTS.

MDSS Operational Issues 2003 MDSS Stakeholder Meeting Tuesday, June 17, 2003 Des Moines, Iowa Andy Stern Mitretek Systems FHWA Weather Team.

MDSS Stakeholder Meeting June, COMPUTING A BETTER WAY TO PLOW IN NORTHEASTERN MINNESOTA Kwasi D. Amoah, Graduate Student, MSEM University of.

Winter Road Treatments & Snow Removal Costs Outline.

The Federal Highway Administration Presents The Maintenance Decision Support System Paul Pisano Team Leader, Road Weather Management.

FRONTS phschool The movement of air masses is determined by the prevailing winds and upper air currents This causes most local weather condition.

ROAD MONITORING TO PREVENT WEATHER PROBLEMS Miguel Ángel Rodríguez Jara Civil Engineer Head of Traffic Control Centre of Valladolid.

Four Elements that Affect the Formation and Release of Avalanches.

2008 Midwest States’ Meeting April 22-23, IDOT Statistics:   42,872 Lane Miles   1,153 Snow Routes   1,748 Trucks   836,761 Tons.

Weather & Road Condition Product Improvements Enabled by Vehicle Infrastructure Integration (VII) William P, Mahoney Kevin R. Petty Richard R. Wagoner.

Winter Storm Response Presentation & Discussion. Winter Storm Response2 Storm Response – PW Mission “We strive for the safest roadways at a reasonable.

Driving at Night & in Inclement Weather. Visibility The single biggest contributor to crashes is failing to identify a risk! Tips for cutting down those.

1 Winter Operations Program Presented by Ken Greene October 10, 2011.

Weather Briefing January 30, 2015 National Weather Service Detroit/Pontiac, MI

1 Consensus Definition of MDSS Paul Pisano, Team Leader Road Weather Management Federal Highway Administration Washington, DC MDSS Stakeholder Meeting.

GROUP # 5 UPDATED 02/20/07 Faye Barthold Michelle Benny Ting Sun.

Decision Support System Development: Engaging End Users Bill Mahoney National Center for Atmospheric Research Research Applications Laboratory (RAL)

BASIC DATA SPHERE OF BUSINESS organosilicon compounds silicone resins silicone corrosion inhibitor silicone additives profesional cleaning agents De-/-Anti-Icer.

Weather Intro Weather Weather is caused by the unequal heating of the surface of the planet. This occurs in two ways.

Request for Proposal (RFP) Creation for Road Weather Services that Include MDSS Capabilities Bill Mahoney & Kevin Petty National Center for Atmospheric.

Executive Summary Snow and Ice Materials, equipment and labor were consumed to meet Department Target Regain Times for the five maintenance.

Driving at Night & in Inclement Weather. Visibility The single biggest contributor to crashes is failing to identify a risk! Tips for cutting down those.

Weather and Environmental Content on 511 Services Utah Kentucky Iowa.

Robert Roszell Inventor of the TUFF TECH Bag, flexible rain barrels and the flexible brine maker. In the snow and ice industry for 19 years dealing with.

1 NTOC Talking Operations – Road Weather Management – September 30, 2008 Illinois DOT MDSS… a Smart Investment (Paul) Dean Kernan Illinois DOT Field Technician.

MDSS Lab Prototype: Program Update and Highlights Bill Mahoney National Center For Atmospheric Research (NCAR) MDSS Stakeholder Meeting Boulder, CO 20.

Decision Support Needs for Transportation Systems December 5, 2000 Emil Wolanin Montgomery County, Maryland.

Roadtech 10/23/2013 Snow and Ice Operations 2013 Focus on Efficiency !

Filling the Gaps in Weather Data for the Transportation Industry A View from the Private Sector’s Perspective Jeff Johnson, CCM DTN Meteorlogix.

Use of MDSS by the City and County of Denver March 14, 2007 Pat Kennedy, P.E. Denver Street Maintenance.

NCAR MDSS Functional Prototype Display System Preview – April 2002 Bill Mahoney National Center for Atmospheric Research Images shown are valid as of 15.

Applications of Weather Uncertainty Information – Transportation 2 nd OS&T Workshop on Communicating Uncertainty and Decision Support 4-6 August 2009 Sheldon.

Mn/DOT Winter Performance Measures Performance Measures Maintenance Quality Assurance Peer Exchange October 12, 2004.

Adverse Driving Conditions Section 10 Reduced Visibility Windows Most important rule is Keep Your Windows Clean!

Olathe’s Snow Removal Program. Overview Snow Removal Policy Types of Routes Snow Route Information Site AVL units Complaint database.

Weather Test REVIEW What type of weather is the area the arrow points to experiencing on this map? Fair weather Rainy weather Weather from the collision.

Creating and Analyzing Weather Maps

Assigning Winter Level of Service State Long Range Transportation Plan (SLRP) is the basis for assigning LOS Designates routes into International,

Snow and Ice Report Mn/DOT Operations Division Meeting June 2008.

Office of Highway Safety Sight Distance and Roadway Condition Dan Walsh, P.E.

Public Works Overview of Winter Salt Usage. Our Equipment The City of Mankato's Public Works Department plows 432 lane miles and uses an average of 2,400.

ORDINANCE # Authorizing $372,760 for traffic signal interconnect at 47 th Street and Emanuel Cleaver II Boulevard Start of project End of project.

Snow & Ice Control in Maine

Idaho Transportation Department Winter Maintenance Best Practices

Public Works Roads Operations

Highway Safety in Winter Weather

EFFECTS OF WEATHER AND TERRAIN

Snow & Ice Event/Bare Lane Training

Public Works Roads Operations

Multi-state Applied Weather Concepts

NCAR - Research Applications Laboratory

Runway Weather Information Systems & Grip

NAVIGATING THE WINTER WITH THE ILLINOIS TOLLWAY

Steve Beningo Rural Intelligent Transportation Systems Specialist

Decision Support System Development: Engaging End Users Bill Mahoney National Center for Atmospheric Research Research Applications Laboratory (RAL)

What Causes Weather?.

Regional Operations Forum Road Weather Management

Presentation transcript:

Maintenance Decision Support System

Intersection I-15 Intersection I-15 and I-70 in Utah and I-70 in Utah Point intervals Point intervals along corridor along corridor ranging from 1 ranging from 1 to 3 miles to 3 miles Intersection I-15 Intersection I-15 and I-70 in Utah and I-70 in Utah Point intervals Point intervals along corridor along corridor ranging from 1 ranging from 1 to 3 miles to 3 miles GIS Display of Jurisdiction Area

Snow Rain Mixed Midnight Wednesday Midnight Tuesday Midnight Thursday Precipitation Rate (SWE) (in/hr) Two-Day Precipitation Rate History Prediction Point # Time Since Awareness (hrs)

Temperature (deg F) Time Since Awareness (hrs) 0 0 Two-Day Temperature History Prediction Point #3 Midnight Wednesday Midnight Tuesday Midnight Thursday Pavement Temperature Air Temperature

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Snow Depth History Without Treatment Prediction Point # Snow Depth (in) Time Since Awareness (hrs) 0 0 Snow Depth with No Maintenance Efforts

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Chemical Concentration History Without Treatment Prediction Point #3 Concentration (% by weight) Time Since Awareness (hrs) 0 0 Concentration of NaCl (no treatment)

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Friction Coefficient History Without Treatment Prediction Point #3 Friction Coefficient Time Since Awareness (hrs) Friction Coefficient with No Maintenance Efforts

What ? When ? How ?

Decisions Supported by MDSS 2.1 become aware of weather threat 2.2 monitor weather threat 2.3 identify weather threat occurance 2.4 assess sufficiency of equip. & consumables 2.6 check readiness of equip. & consumables 2.10 assign minimum staff to monitor and manage 2.13 disseminate important weather info to field staff 2.14 forward-place equipment and stocks 2.16 alert supervisory staff to monitor/prepare 2.18 alert crews

Decisions Supported by MDSS 2.21 select treatment expendables 2.5 replenish consumable stocks 2.7 mix expendables 2.11 select event-treatment strategy 2.17 confirm strategy-plan in place 2.12 assign crews to shifts, schedules 2.22 dress and load equipment 2.19 split crew shifts 2.25 dispatch crews to treat (anti-ice)

Decisions Supported by MDSS 2.24 dispatch crews to wait at routes 2.27 dispatch crews to treat (plow/spread) 2.28 dispatch crews to treat (plow cake, de-ice) 2.30 dispatch crews to treat (ice-spot treat) 2.42 re-evaluate storm intensity and duration 2.44 determine the LOS goal is reached 2.39 close roads 2.41 rest crews

Decisions Supported by MDSS 2.29 dispatch crews to treat (bulk removal) 2.31 dispatch crews to treat (drifting) 2.47 dispatch crews to clean up 2.43 identify threat end 2.48 open roads

Pre-Defined Levels Of Service ● DOT road classifications based on number of vehicles/day ● Level of Service standards Bare Pavement Full-width 50%-75% width Left-wheel Passing Lane None Time 4, 6, 16, 24 hours after storm ends Or as soon as practical and as weather permits ● “Provide reasonable traveling conditions for the prudent driver during storm, depending on location, time of day”

Current Pavement Temperature (F) Anticipated Pavement Temperature Change Precipitation Type* / Severity Salt Application Rate ** (lbs per two-lane mile) Comments Above to to to or Below Higher Lower Higher Lower Higher Lower Higher Lower R, SL, WS / Light R, SL, WS / Mod. - Heavy FR, SL, DS, WS / Light FR, SL, DS, WS / Mod. – Heavy FR, SL, DS, WS / Light FR, SL, DS, WS / Mod. - Heavy SL, DS, WS / Light SL, DS, WS / Mod. – Heavy SL, DS, WS / Light SL, DS, WS / Mod. - Heavy SL, DS / Light SL, DS / Mod. – Heavy SL, DS / Light SL, DS / Mod. - Heavy 100 to to to to to to to 800 No Salt. Apply Sand and Plow as Needed. Use Pre-Wet System Pre-Wet: 6 Gallons/Ton Pre-Wet: 8 Gallons/Ton Pre-Wet: 10 Gallons/Ton Monitor Pavement Temp. Switch to Salt if Rising Above 15F * R=Rain, FR=Freezing Rain, SL=Sleet, WS=Wet Snow, DS=Dry Snow If snow is blowing off roadway and no hard-pack exists, do not apply chemicals or abrasives. ** Initial application. Plow and re-apply salt at half-rate if surface becomes mealy or slushy, or full rate if glazed or packed. Maine DOT Application Rate Matrix

Snow Rain Mixed Ideal Time For Chemical Application Ideal Time For Plowing Effort Midnight Wednesday Midnight Tuesday Midnight Thursday Precipitation Rate (SWE) (in/hr) Two-Day Decision Support History Recommended Treatments Prediction Point # Time Since Awareness (hrs)

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Snow Depth History With and Without Treatment Prediction Point # Snow Depth (in) Time Since Awareness (hrs) 0 0 Snow Depth with No Maintenance Efforts Snow Depth with Recommended Maintenance Efforts

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Chemical Concentration History With and Without Treatment Prediction Point #3 Concentration (% by weight) Time Since Awareness (hrs) 0 0 Concentration of NaCl (no treatment) Concentration of NaCl (with treatment)

Midnight Wednesday Midnight Tuesday Midnight Thursday Two-Day Friction Coefficient History With and Without Treatment Prediction Point #3 Friction Coefficient Time Since Awareness (hrs) Friction Coefficient with No Maintenance Efforts Friction Coefficient with Recommended Maintenance Efforts LOS 1

What A Tool !