The invention described here enables the real-time, low-cost, non-invasive measurement of neuromuscular performance for numerous healthcare and screening applications including assessing maladaptation prediction via a screening session as well as provision the application of correlated and corrected measurements of force displacement. The tests to be performed and subsequently measured are dynamically determined and administered using a computer guided and prompted process to acquire and process a subjects performance including predicting future injury. The system as well is adaptive and allows the introduction of new tests, or streamlining and combination of performance tests based on acquired data across the universe of screening platforms.
