Information Quality Level

Information Quality Level (IQL) is a concept developed by the World Bank [1] for structuring road management information into different levels that correlate to the degree of sophistication required for decision making and methods for collecting and processing data. In IQL theory, very detailed data (‘low-level data’) can be condensed or aggregated into progressively simpler forms (higher-level data).

As described in,[2] imagine looking out of an airplane window, just as you are about to land. You recognize the landscape by a bend in the river, or the way a thread-like highway cuts through the landscape. The plane draws nearer, and you can make out your neighborhood, then your home, your car. You have been looking at the same spot throughout the descent, but the “information” available to you became enhanced. While from high above you had enough macro-level information to determine what town you were looking at, you needed a different kind of micro-level information to determine precisely where your car was. You have just experienced first hand the principle behind IQLs.

Five levels of road management IQLs were identified and defined. IQL-1 represents fundamental, research, laboratory, theoretical, or electronic data types, where numerous attributes may be measured or identified. IQL-2 represents a level of detail typical of many engineering analyses for a project-level decision. IQL-3 is a simpler level of detail, typically two or three attributes, which might be used for large production uses like network-level survey or where simpler data collection methods are appropriate. IQL-4 is a summary or a key attribute which has use in planning, senior management reports, or in low effort data collection. IQL-5 represents top level data such as key performance indicators, which typically might combine key attributes from several pieces of information. Still higher levels can be defined as necessary.

At IQL-1, pavement conditions are described by twenty or more attributes. At IQL-2, these would be reduced to 6-10 attributes, one or two for each mode of distress. At IQL-3, the number of attributes is reduced to two to three, namely roughness, surface distress, and texture or skid resistance. At IQL-4, all of the lower-level attributes may be condensed into one attribute, “Pavement Condition” (or “state” or “quality”), which may be measured by class values (good, fair, poor) or by an index (e.g., 0-10). An IQL-5 indicator would combine pavement quality with other measures such as structural adequacy, safety aspects, and traffic congestion—representing a higher order information, such as “road condition”. This is shown in the following table [3]

Three observations that emerge from these definitions are:

References

  1. Paterson, W. and Scullion, T. (1990) Information Systems for Road Management: Draft Guidelines on System Design and Data Issues. The World Bank, Policy Planning and Research Staff, Infrastructure and Urban Development Department.
  2. Bennett, C. and Paterson, W.D.O (2000). A Guide to Calibration and Adaptation of HDM-4. The Highway Development and Management Series, Volume Five. PIARC, Paris.
  3. Bennett, C. et al. (2006). Data Collection Technologies for Road Management. Report for the World Bank.
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