TY - JOUR AU - AB - IEEE SYSTEMS JOURNAL, VOL. 14, NO. 3, SEPTEMBER 2020 3865 Engineering Resilient Complex Systems: The Necessary Shift Toward Complexity Science Giuliano Punzo , Anurag Tewari, Eugene Butans, Massimiliano Vasile , Alan Purvis , Martin Mayfield, and Liz Varga Abstract—This position article addresses resilience in complex it with a capability to preserve its functionality over varying engineering and engineered systems (CES). It offers a synthesis of conditions of stress or for uncertainties arising from natural or academic thinking with an empirical analysis of the challenge. This human interventions [1]. article puts forward argumentations and a conceptual framework For modern day engineering systems, designing for resilience in support of a new understanding of CES resilience as the product or testing resilience at the design phase, poses a significant of continuous learning in between disruptive events. CES are in challenge. Due to the interconnectedness and embeddedness continuous evolution and with each generation they become more of these systems in a nested system of systems [2]–[4], it gets complex as they adapt to their environment. While this evolution takes place, new failure modes arise with the engineering of their re- increasingly difficult to adopt the traditional approach of testing silience having to evolve TI - Engineering Resilient Complex Systems: The Necessary Shift Toward Complexity Science JF - IEEE Systems Journal DO - 10.1109/jsyst.2019.2958829 DA - 2020-09-01 UR - https://www.deepdyve.com/lp/unpaywall/engineering-resilient-complex-systems-the-necessary-shift-toward-CdGmBr4653 DP - DeepDyve ER -