Systems

Systemic cognition combines the humanities and social sciences with systems science to support a unified field, Human Systems Integration (HSI). It draws on complementary, sometimes conflicting, fields of research, including phenomenology, positivism, logic, teleological approaches, humanism, computer science, and engineering. It is time to gain a deeper understanding of our approach to HSI in complex socio-technical systems. Over the past fifty years, we have transformed our lives in unprecedented ways through technology, both in terms of useful and usable hardware and software resources. We have developed means of transport that enable geographical connectivity anywhere and at any time, which is now a standard feature. We have developed information systems that will allow people to communicate with each other in seconds, anywhere on the planet, and at any time. Systemic cognition aims to provide ontological support for discussing this sociotechnical evolution and to develop HSI not only based on a Human-Centered Design (HCD) approach, but also by focusing on society, which is becoming increasingly immersed in a world equipped with artificial resources (particularly with the growing incorporation of artificial intelligence), which separates us from nature. This article proposes an epistemological approach that extends contemporary theories of systemic and socio-cognitive modeling by integrating constructivism and research on HCD-based HSI developed over the last three decades. Aeronautical examples are used to support the concepts being developed.

As enterprises increasingly depend on software systems, security defects such as vulnerability disclosures, exploitations, and misconfigurations have become economically relevant risk events. However, their short-term impacts on capital markets remain insufficiently understood. This study examines how different types of software security defects affect short-horizon stock market behavior. Using a multi-model event-study framework that integrates the Constant Mean Return Model (CMRM), Autoregressive Integrated Moving Average (ARIMA), and the Capital Asset Pricing Model (CAPM), we estimate abnormal returns and trading-activity responses around security-related events. The results show that vulnerability disclosures are associated with negative abnormal returns and reduced trading activity, while exploitation events lead to larger price declines accompanied by significant increases in trading activity. Misconfiguration incidents exhibit weaker price effects but persistent turnover increases, suggesting that markets interpret them primarily as governance-related issues. Further analyses reveal that market reactions vary with technical severity, exposure scope, industry context, and firm role, and that cyber shocks propagate through both price adjustment and liquidity migration channels. Overall, the findings indicate that software security defects act as short-term information shocks in financial markets, with heterogeneous effects depending on event type. This study contributes to the literature on cybersecurity economics and provides insights for firms, investors, and policymakers in managing software-related risks.

Modern organizations operate in dynamic environments where temporal alignment is critical for adaptive capacity and team resilience. Grounded in Event System Theory (EST) and Temporal Coordination Theory (TCT), this study examines how leaders’ pacing styles function as critical temporal regulation mechanisms that influence team resilience via shared temporal cognition. Using multisource data from 82 team leaders and 384 members in Chinese technology enterprises listed on the STAR Market, we find that steady pacing, characterized by a balanced and predictable temporal rhythm, enhances team resilience through the emergent property of shared temporal cognition. However, the positive effect of steady pacing on shared temporal cognition weakens when teams perceive high crisis event strength, suggesting that external temporal shocks critically attenuate the efficacy of routine temporal regulation. The study extends EST and TCT by revealing steady pacing as a temporal buffer strategy that fosters resilience against external shocks, and highlights the need for Temporal Calibration practices when event intensity is high. Practical implications for managing team rhythms under varying crisis intensities are discussed.