The present invention relates to a multi-person
collaborative software test management system which comprises a code
automation analysis tool, wherein all test items to be processed are divided into models according to files and codes in each file are classified according to functions, and the types and quantities of test models contained in each file are counted. According to the existing test items and the time required for each tester to test the model, the tester's portrait model and the
workload model of each test model are fitted by the tester's portrait development and
workload model designation tool. The portrait model of each tester and the
workload model of each test model are outputted to an automated test workload evaluation and distribution tool. The automatic test workload evaluation and distribution tool evaluates the overall workload according to the received test models under all the test items to be processed and the workload of each test model, and distributes the workload of the testers according to the current tester portrait model. After each tester completes the test of a test model, the tester portrait model is updated through the tester portrait developmentand workload model specification tools.