@conference {16320, title = {Software metric classification trees help guide the maintenance of large-scale systems}, booktitle = {, Conference on Software Maintenance, 1989., Proceedings}, year = {1989}, month = {1989/10/16/19}, pages = {116 - 123}, publisher = {IEEE}, organization = {IEEE}, abstract = {The 80:20 rule states that approximately 20\% of a software system is responsible for 80\% of its errors. The authors propose an automated method for generating empirically-based models of error-prone software objects. These models are intended to help localize the troublesome 20\%. The method uses a recursive algorithm to automatically generate classification trees whose nodes are multivalued functions based on software metrics. The purpose of the classification trees is to identify components that are likely to be error prone or costly, so that developers can focus their resources accordingly. A feasibility study was conducted using 16 NASA projects. On average, the classification trees correctly identified 79.3\% of the software modules that had high development effort or faults}, keywords = {automated method, automatic programming, classification, Classification tree analysis, classification trees, Computer errors, empirically-based models, error-prone software objects, Fault diagnosis, feasibility study, high development effort, Large-scale systems, multivalued functions, NASA, NASA projects, recursive algorithm, Software algorithms, software engineering, Software maintenance, Software measurement, software metrics, software modules, Software systems, trees (mathematics)}, isbn = {0-8186-1965-1}, doi = {10.1109/ICSM.1989.65202}, author = {Selby,R. W and Porter, Adam} }