Presentation is loading. Please wait.

Presentation is loading. Please wait.

Use of Probe Vehicles to Measure Road Ride Quality

Published byDarrell Campbell Modified over 8 years ago

Similar presentations

Presentation on theme: "Use of Probe Vehicles to Measure Road Ride Quality"— Presentation transcript:

1 Use of Probe Vehicles to Measure Road Ride Quality
Samer W. Katicha Senior Research Associate, Center for Sustainable transportation Infrastructure

2 Outline Smoothness for asset management Probe vehicles The experiment
IRI calculation from profile IRI calculation from vertical acceleration measurements Sensitivity analysis Conclusions Center for Sustainable Transportation Infrastructure

3 Smoothness for asset managment

4 Infrastructure Condition/ Performance Indicators → Pavements
Service and User Perception Physical Condition Structural Integrity / Load-Carrying Capacity Safety and Sufficiency Environmental Impact Serviceability (PSI, IRI) Distress (PCI) Deflection (FWD) Friction (FN)/ Macrotexture Tire/Pav. Noise Rolling Resistance

5 Asset Management Strategic level Network level Project level
Performance monitoring Network level Pavement management Project level Smoothness Specification Research  LTPP Center for Sustainable Transportation Infrastructure

6 Information Quality Levels
HIGH LEVEL DATA Strategic Level Business Processes System Performance IQL-5 Performance Monitoring Information Quality Levels Network Level Planning and IQL-4 Structure Condition Performance Evaluation Program Analysis or IQL-3 Ride Friction Distress Detailed Planning The various IQLs requires different levels of detail and quality in the collected data to support the corresponding decision-making processes, which translate into different methods and frequencies of data collection. Therefore, it is imperative for the determination of data needs to pre-specify the decision level of interest. The tailoring of the data collected for effective decision-making within the decision level can lead to more specific and focused data collection efforts. This is illustrated in the following section for the project selection decision level. This plot was adapted from: Bennett, C. and W.D. Paterson, "A Guide to Calibration and Adaptation of HDM-4," in The Highway Development and Management Series, The World Bank, Washington, D.C., 2000. Project Level Project Level or IQL-2 Detailed Programming Project Detail or IQL-1 Research LOW LEVEL DATA

7 Probe Vehicles

8 Can we use probe (or regular) vehicles for road infrastructure health monitoring?
At least for supporting high-end strategic- and network-level decisions?

9 Pavement Assessment and Management Applications Enabled by the Connected Vehicles Environment – Proof-of-Concept Objective: To use data collected from probe vehicles to extract information that could be used to remotely and continuously determine road infrastructure health

10 The experiment

11 Profile and Acceleration Data
Profile data: Collected at the Virginia Smart Road Every 30 mm (1.2 in) Probe vehicle acceleration data: Every 2100 mm (7 ft) Center for Sustainable Transportation Infrastructure

12 Data Sampling Problem Center for Sustainable Transportation Infrastructure

13 Quarter Car Model kb Cb kt
Center for Sustainable Transportation Infrastructure

14 Quarter Car Model Center for Sustainable Transportation Infrastructure

15 Accuracy of Numerical Calculation
Center for Sustainable Transportation Infrastructure

16 The Probe Vehicle 2007 Ford Fusion Car parameters: Test Speed:
Same as golden car Close enough Test Speed: 50 mph Center for Sustainable Transportation Infrastructure

17 IRI Calculation Center for Sustainable Transportation Infrastructure

18 IRI Comparisons Calculated IRI: Problems with quarter car model:
Follow the same trend Sample over 2 m makes a difference Problems with quarter car model: Probe vehicle acceleration results from the full car response Approximate full car with average of profile felt by the four wheels Center for Sustainable Transportation Infrastructure

19 “Full Car” IRI Center for Sustainable Transportation Infrastructure

20 Sensitivity Analysis (Sampling)
Center for Sustainable Transportation Infrastructure

21 Sensitivity Analysis (Quarter Car Parameters)
Center for Sustainable Transportation Infrastructure

22 Sensitivity Analysis (Sampling)
Suspension Stiffness Suspension Damping Tire Stiffness Mass Ratio Center for Sustainable Transportation Infrastructure

23 Conclusions Same IRI trend between probe vehicle and profiler:
Effect of data sampling Effect of full vs. quarter car Effect of probe vehicle car parameters Use of the data: To much uncertainty/variation for detailed analysis Maybe useful for strategic level Center for Sustainable Transportation Infrastructure

24 Blacksburg, VA

Download ppt "Use of Probe Vehicles to Measure Road Ride Quality"

Similar presentations

DS-01 Disaster Risk Reduction and Early Warning Definition

DS-01 Disaster Risk Reduction and Early Warning Definition
Ride Specification – IRI Update Prepared by Joe Thomas, P.E. 11/1/06 MAAPT 53 rd Annual Asphalt Conference December 6, 2006.

Ride Specification – IRI Update Prepared by Joe Thomas, P.E. 11/1/06 MAAPT 53 rd Annual Asphalt Conference December 6, 2006.
A Connected Vehicle-Based Application to Estimate Road Roughness Transportation agencies devote significant resources towards collection of highly detailed.

A Connected Vehicle-Based Application to Estimate Road Roughness Transportation agencies devote significant resources towards collection of highly detailed.
IRI Smoothness Testing for Quality Assurance and Warranty Construction Alberta Transportation CUPGA November 15 th, 2009 Moncton, NB.

IRI Smoothness Testing for Quality Assurance and Warranty Construction Alberta Transportation CUPGA November 15 th, 2009 Moncton, NB.
1 AMS Weather & Climate Enterprise Summer Meeting 2009 Vehicle-based Observations Report on USDOT-led Efforts Paul Pisano, Team Leader Road Weather Management.

1 AMS Weather & Climate Enterprise Summer Meeting 2009 Vehicle-based Observations Report on USDOT-led Efforts Paul Pisano, Team Leader Road Weather Management.
From… Maintenance Technical Advisory Guide (MTAG) Chapter 2 Surface Characteristics.

From… Maintenance Technical Advisory Guide (MTAG) Chapter 2 Surface Characteristics.
Vehicle Ride.

Vehicle Ride.
Lecture 12 Lecture 1L PAVEMENT CONDITION INDICES.

Lecture 12 Lecture 1L PAVEMENT CONDITION INDICES.
History Dynatest was founded in 1976 in Denmark by a group of engineers and technicians who combined  science  technology and  business into the development.

History Dynatest was founded in 1976 in Denmark by a group of engineers and technicians who combined  science  technology and  business into the development.
Portorož, Slovenia Evaluation of the International Friction Index Coefficients for Various Devices Gerardo FlintschGerardo Flintsch Center for Sustainable.

Portorož, Slovenia Evaluation of the International Friction Index Coefficients for Various Devices Gerardo FlintschGerardo Flintsch Center for Sustainable.
INRIX Data Evaluation I-95 Corridor Coalition – Vehicle Probe Project (VPP) I-95 Corridor Coalition – Vehicle Probe Project (VPP) January 3, 2012.

INRIX Data Evaluation I-95 Corridor Coalition – Vehicle Probe Project (VPP) I-95 Corridor Coalition – Vehicle Probe Project (VPP) January 3, 2012.
The INTEGRATION Modeling Framework for Estimating Mobile Source Energy Consumption and Emission Levels Hesham Rakha and Kyoungho Ahn Virginia Tech Transportation.

The INTEGRATION Modeling Framework for Estimating Mobile Source Energy Consumption and Emission Levels Hesham Rakha and Kyoungho Ahn Virginia Tech Transportation.
Car Rollover Test Name: Antonio Sevilla Course: ME 272 FEA Prof. Jose Granda Date: 12-20-06.

Car Rollover Test Name: Antonio Sevilla Course: ME 272 FEA Prof. Jose Granda Date:
Pavement Ride Quality Nicholas Vitillo, Ph. D. Center for Advanced Infrastructure and Transportation.

Pavement Ride Quality Nicholas Vitillo, Ph. D. Center for Advanced Infrastructure and Transportation.
PAVEMENT CONDITION SURVEYS. Instructional Objectives n Need for condition surveys n Collection methodologies n Basic types of condition surveys n Different.

PAVEMENT CONDITION SURVEYS. Instructional Objectives n Need for condition surveys n Collection methodologies n Basic types of condition surveys n Different.
Dynamic Traction Control By: Thiago Avila, Mike Sinclair & Jeffrey McLarty.

Dynamic Traction Control By: Thiago Avila, Mike Sinclair & Jeffrey McLarty.
Data Collection for Determining Pavement Condition

Data Collection for Determining Pavement Condition
PAVEMENT CONDITION SURVEYS Lecture 4. Instructional Objectives n Need for condition surveys n Collection methodologies n Four basic types of condition.

PAVEMENT CONDITION SURVEYS Lecture 4. Instructional Objectives n Need for condition surveys n Collection methodologies n Four basic types of condition.
PAVEMENT CONDITION INDICES. n Historic development of pavement condition indices n The basic functions of condition indices in PMS n Different types of.

PAVEMENT CONDITION INDICES. n Historic development of pavement condition indices n The basic functions of condition indices in PMS n Different types of.
Orientation to Performance and Quality Improvement Plan

Orientation to Performance and Quality Improvement Plan

Similar presentations

Ads by Google