Prototype Road Surface Management System

The Road Surface Management System (RSMS) is a powerful tool that can provide an overview and rough estimate of a roadway system’s condition at the network level and the approximate costs for future improvements in towns and small cities. This helps municipalities and local agencies to apply limited budget resources and provide the greatest road quality benefits. To control the cost of roadway surface deterioration, local agencies and municipalities need to make cost-effective decisions regarding the maintenance, rehabilitation, and reconstruction of the roadway network. RSMS can help in assessing the condition of the network, weighing alternatives, and establishing longterm treatment plans and budgets. In this paper, RSMS is used to evaluate a university campus road network in the state of Idaho and to establish the necessary repair methods for 10 selected sections in the campus network.


Introduction
Pavement preservation and maintenance is a planned system of treating pavements at the optimum time to maximize their useful life, and to enhance pavement longevity at the lowest cost.Pavements perform well under traffic loads until a particular point in their life spans, at which time they deteriorate considerably and rapidly to failure, as shown in Figure 1.Municipalities and local agencies are often challenged with the high cost of maintaining a transportation system, and they must control costs by slowing roadway surface deterioration.This requires making cost effective decisions regarding the maintenance, repair, rehabilitation, and reconstruction of the municipal roadway network.Developing a maintenance budget based on cost-effective decisions requires a rational and systematic process.Typically, communities develop budgets using methods such as last year's budget, worst first, and political pressure.Though these decision-making criteria can work if a community has adequate resources and the majority of road surfaces are in good shape, this is often not the case.As such, municipal officials can benefit from a system that enables them to assess the condition of the network, weigh alternatives, and establish long-term programs and budgets.Although road systems are built at considerable cost, many roads show signs of major distress.If these problems are not corrected, the cost to bring the road to an acceptable condition can be many times more expensive than the cost of timely repair.As municipal roads worsen maintenance budgets need to increase.There are more deteriorated streets each year, and the cost per mile for maintenance increases disproportionately.According to the American Association of State Highway and Transportation Officials [1] [2], every $1 spent to keep a road in good condition avoids $6 -14 needed later to rebuild the same road once it has deteriorated significantly.The Road Surface Management System (RSMS) is a useful tool to identify a road system's condition and determine the approximate costs for future improvements.RSMS provides a systematic approach for local officials to assess their road system, and to guide future improvement and investment in line with their budget.The RSMS program provides information on the condition, traffic, and importance of roads in a town to create a long term maintenance program.The general road surface management system (RSMS) processing includes the following tasks for the road network [3]: • Inventory the road system by driving/or walking on the roads and making visual inspections; • Determine and document the surface distresses condition and drainage condition of each road and entering that data into the program; • Assign maintenance or repair methods for each condition strategy produced by the program; • Determine costs of maintenance and repair methods; • Assign repair and maintenance methods to each road; • Establish maintenance and repair priorities; • Establish long-term financial and budget plans.

Methodology
The University of Idaho (UI) road campus is used to apply the RSMS approach that was developed by the Department of Civil Engineering at the University of New Hampshire.The UI is located in the northern City of Moscow, ID.The methodology used in this paper is implemented using a computer based software package RSMS 11 that addresses the fundamental RSMS tasks, including: identifying the sections and roads in the UI campus network and their importance and the associated traffic volume in a scale of (1 -5) with 1 the lowest and 5 the highest; inventory the road system by making a field survey of the surface distresses and drainage conditions; determining the condition of each road or section, assigning the suitable repair method for each section; determining the cost of each maintenance; rehabilitation or repair method; establishing repair priorities, and planning for long-term budget plans.Further details are shown in the next steps.

Identifying the Deteriorated Road Sections
The following 10 roads (sections) were selected and identified for evaluation within the UI campus network system (with total length of 5.88 miles): Section An accurate road inventory is a very important part of any pavement management system (PMS) and it is considered the foundation of the system.The required data for the UI campus network were obtained from the campus maps and facility services, and from field survey of each section and road, including its length, width, number of lanes, shoulder type and its width, the importance of the section in a scale of (1 -5) with 1 the lowest and 5 the highest, the traffic volume on each section in a scale of (1 -5) with 1 the lowest and 5 the highest, the speed limits, right-of-way, and the maintenance division [3].Table 1 shows the 2016 inventory of the identified paved sections of the UI campus road network in Moscow, ID.
The importance of each section in a scale of (1 -5) with 1 the lowest and 5 the highest, and the rank of the existing traffic volume used by each section in a scale of (1 -5) with 1 being the lowest and 5 the highest were used in the RSMS as shown in Table 2.

Condition Survey for the Existing Surface Distresses and Drainage Conditions of the Road Sections
The purpose of the condition survey is to determine the condition of each section by visually observing the surface distresses.The condition survey is crucial to the pavement management system since certain distresses are related to certain causes of pavement deterioration [4] [5].Due to this direct relationship, RSMS links distress types to the Maintenance, Rehabilitation, and Reconstruction (MR & R) strategies [3] [6] [7].Gathering the inventory and road surface condition and drainage condition for each identified section is done by driving on the roads and/or walking on the roads and collecting visual inspections of the existing distresses and the roadside drainage for each road section, recording the SEVERITY and EXTENT of a distress.The severity is ranked as (low, medium, and high) depending on the length, width and the visual shape of the existing cracks and distresses, and the extent is ranked as low for <10% of the road section area, medium for 10% -30%, and high for >30% as indicated in the RSMS.Decision trees are used to relate the surface distresses of each section with the appropriate strategy.Each distress type (i.e.alligator cracking, potholes, etc.) has a link that relates each severity/extent condition with an MR & R strategy.RSMS categorizes each section in term of the strategy repair method and determines its repair options depending on the surface distresses and roadside drainage data input.The type of repair strategies produced by RSMS are the following (No Maintenance, Routine, Preventive, Rehabilitation, and Reconstruction), and each strategy has several repair options.The following types of distresses were inspected and documented by their level of severity and extent: 1) Alligator Cracks 2) Longitudinal/Transverse Cracks 3) Edge Cracking 4) Patches and Potholes 5) Roughness 6) Rutting 7) Roadside Drainage Table 3 shows the condition survey for each section within the UI campus road network, the different types of the existing surface distresses and drainage conditions, and the RSMS surface status.Table 4 identifies the sections by the repair strategy of RSMS.Table 5 shows the repair strategy in term of the percent of total network length

Assigning the Suitable Repair Method and Cost-Effective Alternative
RSMS assigns appropriate repair options for each category [3] whether for maintenance costs depending on the road surface distresses as follows: • For routine category, RSMS gives the following options (crack seal, and Patching).
Each repair option has an estimated cost and life expectancy that must be the most cost-effective alternative.
Table 6 shows the cost of each repair option for all repair categories, and from this list, the suitable repair option can be selected in the next step.
The selection of the repair option for each section is based on the utilization and optimization of many factors [6] [8]- [11] such as: • Repair cost: choose the option with the lowest market price and cost.
• Best technical solution: choose the option that best addresses and cure the current surface distress condition and structural capacity of the section.This is an important weighing factor.• Life cycle cost: choose the option that allows providing serviceability over the longest possible life cycle of the road.• User delay cost: choose the option that minimizes the user delay cost of the road and contribute to the public satisfaction.• Safety and risk minimization: choose the option that increases safety and minimizes the risk to the public.
• Recycling of the materials: choose the option that maximizes the re-use of all materials generated during the rehabilitation process and maximizes the recycling process.• Environmental effects: choose the option that best fits the environmental/climatic effects surrounding the road.
Comparing the different alternatives of repair options for each section, especially the cost factor and the best   technical solution suitable for each section, and weighing the factors above, the appropriate repair methods and budgets were selected with reasoning of the selection as shown in Table 7.

Determining the Cost of Each Repair Method
RSMS uses an estimate of the prices and costs of the different repair methods based on 1 mile road length and 20 ft wide road as shown in Table 8.The total cost of each section can be determined based on the actual length and width of the section.
The RSMS costs shown above can be modified by each agency to reflect the most recent market prices within its jurisdiction.

Establishing Repair Priorities
Repair strategies must be analyzed based on their technical and economical impacts so that priority program at the network level can be identified and later implemented at the project level.RSMS prioritizes the repair of all sections based on the surface distresses and the drainage conditions.RSMS gives the highest priority value to road sections that need routine maintenance and having poor drainage, and gives the lowest priority value to road sections that have good drainage but need major rehabilitation.In the UI Campus network, the priority was given to the sections that need routine maintenance in the financial plan because it costs less than other strategies and to effectively extent the life cycle of these low cost sections.Table 9 shows the repair priority of the sections depending on the repair strategy.

Long-Term Financial and Budget Plans
Long-term financial and budget plans are necessary planning tools for any PMS because it can allocate the required resources and budgets per each year in the future planned period.RSMS can prepare long-term financial and budget plans for up to 15 years if the required data were available and entered into the program regarding the repair costs of each section within any number of future years up to 15. Table 10 shows the financial budget plan for the UI network repair from 2016 to 2024 using the estimated costs of repair of the RSMS, depending on the estimated repair methods used by the program.

Conclusion
The Road Surface Management System (RSMS) is a data-intensive program that uses three categories of data; road network inventory, road surface condition survey, and maintenance, rehabilitation and reconstruction (MR & R) strategies and associated unit costs and life expectancy.RSMS is a powerful tool to assist town managers, road commissioners, public works directors, road committees, and budget committees develop a maintenance    plan for their paved road network.RSMS is intended to provide an estimate of a roadway network level condition for towns and small cities and the approximate costs for their repair methods and future improvements.The University of Idaho campus road network is evaluated using the RSMS process.Inventory conditions are conducted by driving and/or walking on 10 sections that are identified within the UI campus (with total length of 5.88 mile) and their inventory conditions are used.RSMS classifies 20% of the total network length as in need of "Routine repair", 52% of the total network length as in need of "Preventive repair", and 28% as in need of "Rehabilitation repair".The adequate repair option is selected for each section through the optimization of the cost effective factors and the most suitable technical solutions with the associated budget, and the program prioritizes the repair of the roads beginning with the routine strategy, then the preventive, and then the rehabilitation strategies.Appropriate budget plans are established by the program for the long-term work as well.

Figure 1 .
Figure 1.Pavement maintenance, rehabilitation, and construction phases with time.

Table 1 .
Inventory of the paved sections in the UI campus road network in Moscow, ID.

Table 2 .
The importance and traffic volume of the road sections.

Table 3 .
Condition survey of the road sections and RSMS status.

Table 4 .
RSMS repair strategy of road sections.

Table 5 .
The repair strategy in term of the percent of total network length.

Table 6 .
RSMS estimated cost for the repair options.

Table 7 .
Choosing the budget.

Table 8 .
The RSMS cost of 1 mile road length and 20 ft wide road.