This report presents a prototype of an Unstable Slope Management System (USMS) and corresponding user's guide. The USMS is a computer program that prioritizes unstable slopes. The system is composed of two parts: a database and priority programs. The database was developed using dBASE III Plus, Ashton-Tate. The priority programs were developed using the expert shell system CLIPS, a NASA developed language. The resulting USMS, at this point, is not an expert system; it is a management system. The USMS was developed by the aid of conversations with Washington State Department of Transportation (WSDOT) personnel. In addition, a questionnaire was sent to WSDOT personnel concerned with unstable slope maintenance. From the conversations and responses to the questionnaire, the factors concerned with site importance were identified. Also, a method to determine the total importance was proposed. The USMS identifies factors that determine the importance of a failure site. These factors pertain to the cause of instability, cost of repair, use of road, and safety to motorists. Data pertaining to these factors are collected for each failure site and stored in the data base. Priority ratings are assigned by the priority rating programs to the data for each site. The priority ratings are multiplied by a weight. The sum of the products represents the total priority. The total priority is a number from 0 to 100, where 100 indicates the highest importance. The total priority represents the importance of the failure site based on the factors identified in the USMS. The total priority of a failure site is independent of all other failure sites.
June 10, 2007
Carlton L. Ho, Sonja S. Norton.
Washington (State). Dept. of Transportation.
- # of Pages: 217 p., 3,828 KB (PDF)
- Subject: Computer programs, Interviewing, Management, Prototypes, Questionnaires, Safety, Slopes, Strategic planning, Unstable soil.
- Keywords: Landslides, slopes, management system, priority rating.
- Related Publications: Development of an Unstable Slope Management System, (WA-RD 270.1).
This abstract was last modified April 29, 2008