Vaisala: Road weather information systems benefit everyone

Paul Bridge at Vaisala describes a new cost-benefit tool to help road managers and road users
Air Quality & Weather Systems / January 23, 2012
RWIS and MDSS battle to convince RWIS is indeed worthwhile
Despite the significant benefits for both end users and road managers and operators, road weather remains the poor cousin to, for example, aviation weather in terms of acceptance and investment

Road Weather Information Systems (RWIS) have now been around for over 30 years and it is widely accepted that these systems provide critical information which allows roads authorities to more efficiently plan and execute their winter maintenance duties. In fact, RWIS have proven so successful that there has been a steady movement towards authorities operating the systems all year round in order to provide information for summer maintenance activities. In addition, the realisation that weather has a huge effect upon operational activities has led to a wide expansion of RWIS in the ITS arena.

Almost inevitably, more than three decades of development and operational use have resulted in RWIS becoming more accurate and sophisticated. Examples of this include the addition of new technologies and services; for example, in the past decade we have seen the introduction of cameras, non-intrusive sensors and more recently Maintenance Decision Support Systems (MDSS).

There can be little doubt that all of these advances are providing huge benefits for both the road operators and maintainers. There are also significant gains for the end user in terms of increased road safety, better travel times and, ultimately, greater peace of mind.

Unfortunately, there can also be little doubt that road weather remains the poor cousin to, for example, aviation weather in terms of acceptance and investment. There are mandatory requirements for strictly regulated weather observations and forecasts within the aviation industry with an obvious cost that nobody argues with.

However, most of the professionals within the road weather world, and here we must include both the vendors and the system users, are constantly battling to convince those holding the purse strings that RWIS is indeed a worthwhile investment.

 

RWIS and MDSS

Before going any further, it is perhaps worth expanding a little on just what the differences are between RWIS and MDSS 'Road Weather Information System' is the traditional name for a collection of road weather stations at various point locations on a road network. These report the information they gather back to a central location. The term describes pretty much a basic weather monitoring and reporting system but over the years we have seen many enhancements, such as blending the road weather station data with numerical weather prediction models to provide a tailored road forecast which includes parameters such as surface condition and surface temperature. Other examples of enhancements include the provision through the RWIS system of forecast thermal maps, which are driven by road weather station observations in addition to forecasts to provide the user with an overview of the pavement temperatures across an entire road network.

It would be fair to state that these systems are already providing 'decision support'.

'Maintenance Decision Support System', meanwhile, has become the primary name for an RWIS which provides treatment recommendations to the user. For example instead of a traditional RWIS forecast stating, to give an example, that 'Frost will start to form at 11pm on Highway 1', an MDSS system may state that the user is recommended to commence spreading salt at a given location at 10pm and at a rate of 10g/m2.

The above is an over-simplification, but it should serve to provide an idea of the basic differences.

 

 

 

 

Known benefits for road managers

Roads authorities have reported that MDSS and RWIS have allowed them to reduce their de-icing material costs by up to 40 per cent, resulting in associated reductions in traffic accidents of as much as 50 per cent. There is a slew of information on the various benefits, both direct and indirect, that roads authorities and their regions can attain. However, until now, it has been difficult to make a simple calculation that allows authorities to understand the potential effects of an RWIS or MDSS installation. This in turn has made it difficult for many authorities to justify the outlay for an RWIS or MDSS or, indeed, to secure the funding required to cover either the continued running costs or maintenance.

 

 

 

 

Quantifying value for road managers

In order to provide an objective approach for road authorities and enable them to calculate benefits, Vaisala has created a tool called the Road DSS Calculator (RDC) that allows them to enter infrastructure and cost information. The embedded algorithms produce calculated savings, based on referenced study findings, which provide a breakdown of all direct and indirect cost savings both to the road authority and the local community. The cost savings are an obvious requirement for the purse-string holders but the RDC also provides non-financial information such as safety aspects, with the potential accident reductions, and environmental issues, such as potential carbon and pollutant reductions. This will allow authorities to demonstrate potential and real benefits to all stakeholders, which will hopefully educate the wider audience of the necessity to invest in RWIS and MDSS.

The RDC is designed to be extremely simple to use. All the user has to do is enter a number of easily accessible parameters which then define the road network size, local economy and climate.

Figure 1 below shows the RDC input page where the user first selects their local currency and provides local information (in the green value column).

 

 

 

 

Contact Name   
Organisation
E-mail
Phone Number
Date:
 
I C Gale
Springfield County
[email protected]
123.456.7890
6/12/2011
 
   
Category
 
Description Value  Units
General
Information
Currency
Winter Maintenance Budget
Number of RWIS Stations
Managed Area Population
EUR
25,000,000   
12
320,000
 
 
EUR
Stations
Persons
 
Maintenance
Network
Information


 
Number of Weather Events per Year    
Treatment Distance per Event
Cleanup Distance per Event
Number of Routes
Number of Maintenance Vehicles
Dry Materials Use per Event (Tons)
Wet Materials Use per Event (Liters)
 60
530
-
19
22
100
5,000
 
per Season
Lane Km
Lane Km
Routes
Veh
Tons/Event
Liters/Event
Figure 1: RDC input parameters


The input data is then processed through a series of algorithms in order to calculate the benefits that the user can expect to realise by adopting an MDSS solution. Many of the algorithms are based on standard assumptions, such as the average cost of a road fatality, however users have the opportunity to fine-tune and change these assumptions should they wish or need to. The calculated variables utilise assumptions derived from a wide range of published materials, such as RWIS cost-benefit ratios. These assumptions are being addressed in a White Paper that is soon to be published by Dario Atallah and Paul Bridge from Vaisala, Inc., Boulder USA and Mark DeVries from McHenry Public Works Department, Illinois, USA.

Figure 2 shows the resulting benefits that the road authority can expect to make directly, which are specific to the user's input.

 

 

 

 

 

  Summary  
 
EUR Hours
RoadDSS Benefits





 
Labour Time Savings
Material Savings
Maintenance & Wear Savings
Increased Revenue
Total Efficiency Savings
Percent of Budget Savings
Average Savings per Region
RWIS increased value per station
 
95,838       
247,374
240,984
-
584,195
2.34%
116,839
48,683
 
3,150



3,150

EUR
EUR
Customer Benefits Yearly Benefit Value Units
 
Efficiency




 
Decision Time Cost Savings
Treatment labour Usage Cost Savings
Reduce Stress Related Absences Costs
Dry De-Icing Materials Cost Savings
Wet De-Icing Materials Cost Savings
Cleanup Labour Cost Savings
Vehicle Maintenance Cost Savings
Fuel Consumption Cost Savings
Wear Infrastructure Cost Savings
IT HW Cost Savings
IT Labour Cost Savings
Increase Revenue from Toll Roads
Total Efficiency Related Savings per Year
7,820
70,844
5,875
209,472
22,918
-
60,449
12,865
180,535
2,119
11,299
-
584,195
 
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
EUR
 
Publicity

 
Reduction of # Complaints Costs
Reduction of Litigation Costs
Total Publicity Related Savings per Year
5,649
197,119
202,768
 
EUR
EUR
EUR
Customer Benefits     Yearly Benefit Value
 
Units
Efficiency


 
Reduction in Time Making Decisions
Reduction in Operator Treatment Driving Time
Reduction in Stress Related Absences Hours
Reduction in Dry De-Icing Materials Use
Reduction in Wet De-Icing Materials Use
Reduction in Cleanup Labour Time
Reduction of Number of Required Operation Vehicle    
Reduction of Operation Labour Numbers
Reduction in Driven Km
Reduced IT Labour Hours Yearly
Increase of Toll Vehicle During Events
 
138,42
2,508
104
3,900
195,000
-
5
7
13,992
400
115,200
 
Hrs
Hrs
Hrs
Tons
Liters
Hrs
Vehicles
People
Km
Hrs
Vehicles
Publicity

 
Reduction in Numbers of Complaints
Reduction in Number of Lawsuits
800
2
Complaints
Lawsuits
Figure 2: RDC direct benefits

 


In addition to the direct savings that the road authority can make, there are additional community benefits that result from MDSS, as can be seen in Figure 3.

Whilst it is appreciated that there are many areas for potential differences in true savings, Vaisala has deliberately taken a very conservative approach in its calculations, especially in the community savings, which are often totally overlooked when RWIS/MDSS costs are evaluated. It is hoped that this tool will ease the pain or procurement for many who already know the true value of RWIS/MDSS and whilst it is impossible to truly measure peace of mind, at least it is possible to establish a basis for more objective measurement of benefits; there are a number of other benefits that arise from RWIS and MDSS, which the imminent White Paper will address. By the end of summer 2011, Vaisala, Inc. expects to offer use of the tool via an interactive portal on its public website

 

 

 

 

 

 

Community Benefits
 
Yearly Benefit
 
 Value Units 
Safety Accident Costs Savings
Fatality Costs Savings
Total Safety Related Savings per Year
 
 4,598,229
13,999,312
18,597,541
EUR
EUR
EUR
Mobility Traffic flow
Local Economy Losses Reduction
Total Community Related Savings per Year
 
 
104,085,283    
104,085,283
 
EUR
EUR
Environment Pollution Cost Reduction
Total Environmental Related Savings per Year
 
1,405,095
1,405,095
EUR
EUR
Community Benefits      Yearly Benefit
 
Value Units
Safety Reduction in Number of Accidents
Reduction in Number of Fatalities
 
26
5
Accidents
Fatalities
Mobility Average Speed Increase
Increase of Number of Vehicles on the Road
Community Time Savings due to Optimised Treatment     
  
33
16,000
7,613,217
KPH
Vehicles
Hrs
Environment Road Treatment Materials reduction (Water table)
Greenhouse Gas Creation Reduction
Polluting Emissions Reduction
 
3,900
28,381
332
Tons of Material
Tons CO2
Kg NOx/VOC/CO
Figure 3: RDC community benefits

 

 

 

 

 

 

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