Guest editorial: Digital transformation strategy and impacts during emergency situations

1. Introduction

The contemporary world faces highly complex and disruptive situations and events affecting people, organizations and society (Gümüsay et al., 2020). For instance, natural disasters and epidemic outbreaks are challenging organizations at all levels, and these are reacting to such external constraints by constantly developing and implementing unprecedented strategies (Fosso Wamba et al., 2021; Queiroz et al., 2022a). Such contexts can generate emergencies, which are related to events or conditions that offer a potential risk to living beings, the environment, organizations and society (Fosso Wamba et al., 2021).

In this regard, to face such situations, one of the top-notch arsenals that are taking the attention of organizations and institutions today is digital transformation (DT). The DT is a widespread concept that refers to the digitization of activities and the digitalization enabling improvements in the business processes model by integrating cutting-edge information and communication technologies (ICTs), people and organizations (Queiroz and Wamba, 2022).

In this respect, DT is capturing the attention of decision-makers and organizations worldwide. In this vein, decision-makers have understood that DT is a vital weapon to fight against disruptive situations and events while minimizing their impacts on society. Besides, organizations are triggering DT to improve their business process and performance, create business value in challenging times and gain competitive advantage (AlNuaimi et al., 2022; Baptista et al., 2020).

2. Selected papers in this special issue

After a competitive process involving various rounds, senior reviewers, associate editors, editors-in-chief and authors from academia and industry, 15 papers were selected for this special issue. Table 1 summarizes the papers covering several emergency and uncertainties contexts by exploring different features of the digital transformation phenomenon.

The paper of Dohale et al. (2023) investigates how Industry 4.0 technologies can support an organization’s competitive advantage and simultaneously mitigate the damage of emergency disruptions. They interviewed experts and used text mining extraction to propose a novel framework to help implement the Industry 4.0 manufacturing strategy. The proposed framework can support practitioners in their Industry 4.0 strategies, considering normal and emergency situations contexts.

The work by Guan et al. (2023) explores the role of digital technology in Research and Development (R&D) investment and performance, considering organizational resilience during COVID-19. The authors analyzed Chinese firms listed in the Shanghai and Shenzhen markets. Using the regression analysis technique, they showed that resistance to the pandemic outbreak resulted from the prior R&D investment. Accordingly, R&D’s higher prior investment creates higher levels of digital technology, supporting the firm’s resilience. Also, the paper highlights the differences between the size of the firms considering the advantage of strategic flexibility to technological changes. Furthermore, they report the mediation effect of digital technologies in the relationship between R&D investment and firm performance.

The study of Yang (2023) examines the changes in the ICT industry and global value chains (GVC), considering the pre and post-COVID-19 pandemic. The author analyzes the causalities between ICT imports and exports of goods and composite indexes powered by the Korean government. The article reports three main changes in the ICT industry of Korea, considering the post-COVID-19: (1). The exponential growth of contact-free technologies and non-face-to-face; (2). Reconfiguration of the GVC due to the changes from the USA and China relationship; and (3). The GVC of the ICTs operates in a flexible model, affected by the country’s competition and cooperation dynamics.

The next paper is from Zhan et al. (2023). The authors study manufacturing servitization taking into account the digital economy context and dynamic capabilities. Their research framework considered contingency factors such as firm ownership, lifecycle stage, and uncertainty. By applying the fuzzy-set qualitative comparative analysis (fsQCA) approach, they analyzed a longitudinal dataset of China-listed manufacturing firms associated with servitization. They highlight different configurations of the manufacturing servitization performance. Accordingly, the success of the servitization because of the digital economy relies on the interplay between dynamic capabilities and contingency factors.

The work by Dubey (2023) investigates the potential of digital technologies to support the emergency supply chain, considering visibility and collaboration. Also, the author explores the moderating effect of crisis leadership. Supported by the contingent resource-based view, the author proposes a conceptual model tested employing the PLS-SEM approach, using data from Indian NGOs. The paper results show that when moderated by crisis leadership, digital technologies significantly affect information visibility and collaboration in humanitarian emergency supply chain operations.

In the article by Lee et al. (2023), a digital transformation-driven framework is proposed. The authors explore the public health risk response context and how digital technologies can support innovative systematic governance. They used complex systems in emergency management and interpretive research to develop the framework. The authors used a case study in China to exemplify the framework. The proposed framework, namely “Expected digital-enabled emergency management,” can support key stakeholders’ emergency governance, response, integration, collaboration and engagement.

The study by Nigam et al. (2023) examines consumers’ impulse purchasing behavior during the COVID-19 pandemic. The authors highlight the behavior of consumers in shopping for products at home and the implications to retailers managing the offline and omnichannel. They explore blockchain’s role in supporting retailers’ sales, considering permission marketing for impulse products. The authors adopt a qualitative approach through interviews with consumers and retailers. By a thematic analysis, they present three themes: (1) conscious impulse from customers; (2) the unconscious impulse from customers; and (3) retailer’s viable solution. Finally, the authors point out that retailers can use blockchain for permission marketing strategies.

The paper from Lu et al. (2023) investigates if intelligent manufacturing improves the performance of firms, taking into account ambidextrous capabilities. The authors collected data from 2,091 manufacturers of Chinese listed companies. Using the practice-based view and a quantitative approach, they report the positive effect of intelligent manufacturing on performance. Also, the paper shows that intelligent manufacturing can empower the firms’ capabilities, considering ambidextrous, exploit and explore capabilities. Besides, they show that exploring capability can generate different effects on the firm performance in the short and long terms.

From an innovation theory perspective, Hashimy et al. (2023) examine the adoption of blockchain determinants in the context of Spanish public goods firms. The authors integrate the technological, environmental and organizational (TOE) framework with the technology acceptance model (TAM) to develop a conceptual framework. The study employs a structural equation model (SEM) to test the model. On the one hand, the study reveals the positive influence that top management support, relative advantage, competitive pressure and competence play on the blockchain adoption intention. On the other hand, the authors report the negative effect the intention to adopt exerts on adoption.

The paper by Tan et al. (2023) explores the semiconductor industry through the connection between blockchain visibility, supply chain integration and supply chain performance. They developed a research model tested using PLS-SEM, with data collected between Malaysia’s operations and supply chain managers. The results show the importance of supply chain integration as a mediator in the relationship between blockchain visibility and supply chain performance. In addition, by an importance-performance matrix analysis, the authors highlight the minor role that IT plays in the model.

The study of Rauniyar et al. (2023) investigates strategies to supply chain risk reduction founded on innovation and blockchain-enabled digital transformation. The authors adopt a qualitative approach by performing interviews with supply chain practitioners. Using a thematic analysis procedure, they identify different types of risks, such as information, cybersecurity, operational, financial, catastrophic, political and economical. The authors propose a framework for supply chain risk mitigation through integrating innovation and blockchain.

Maroufkhani et al. (2023) examine the determinants of big data analytics adoption considering small and medium-sized enterprises’ (SMEs) context. The authors develop a research model based on the TOE framework. To test the model, they employ the PLS-SEM approach to analyze data collected between Iranian SMEs. The results reveal that top management support plays an important mediation effect. Moreover, the study points out the moderation effect that environmental factors exert on big data analytics adoption.

The article by Zhang et al. (2023) explores the effectiveness of drones in emergency situations. The authors used a hybrid-multi-criteria approach by integrating the fuzzy analytical hierarchy process (AHP), fuzzy analytical network process (ANP), fuzzy Decision-Making Trial and Evaluation Laboratory (DEMATEL), and Best Worst. Also, they propose a novel ensemble ranking technique. They tested the models considering firefighting operations in high-rise buildings and the role of logistics support. The paper highlights the importance of quantifying the drone’s utilities and capabilities in disaster recovery and logistics help in emergency situations.

The study by Johnson et al. (2023) proposes an artificial intelligence solution to support the government and agencies in medical emergency response related to opioid overdose. The authors apply design science research to develop an AI framework to predict the survival rates of opioid overdose. The study shows that the proposed solution can help different actors from the government and industry map, identify and plan effective responses and policies to this emergency situation.

Finally, the paper by Majumdar and Singh (2023) investigates the behavior of IT firms regarding the COVID-19 pandemic risks at the beginning, the communication with participants in the capital market, and the impact on information asymmetry. The paper analyzes annual reports of USA-listed firms on the Securities and Exchange Commission website. The authors use a text analytics approach to assess disclosures of the risk sentiment of COVID-19. The results reveal that the information asymmetry of the firms is improved when there is communication about the emergency situation in the annual reports, which in turn tranquilizes investors.

3. Looking back and moving forward: future research directions exploring the digital transformation during emergency situations

Although the recent emergence of the digital transformation field has increased rapidly in the last few years, different types of emergency situations are rising (Fosso Wamba et al., 2021; Queiroz et al., 2022b). The papers in this SI can significantly contribute to scholars, practitioners, government and policymakers. From this perspective, considering the rapid growth and popularization of digital transformation initiatives as well as the frequency and complexities of emergency situations and environmental uncertainties, there are some opportunities for key topics to be explored by academia, industry and government.

1. Digital transformation and its contribution to policy formulation to support intermittent emergency situations (i.e. pandemic outbreaks, humanitarian crises, etc.).

2. Policy research associated with digital transformation to understand and make effective responses considering simultaneous and intertwined crises (i.e. war risks, climate changes, etc.).

3. The role of cutting-edge technologies like metaverse supporting firms, supply chains and the governments during all stages of the crises.

4. Leveraging the integration of human resources with technologies to improve the plan’s efficiency and response in the pre and post-stages of emergency situations.

5. Development of frameworks that can integrate technology, organizations and people to provide constant and real-time monitoring of emergency situations in a disrupted world.

4. Final remarks

This editorial presented some aspects of the digital transformation strategy’s relevance, including technology, organizations and people, and the impacts during emergency situations and environmental uncertainties. Emergency situations happen several times daily and have grown in frequency in the last few years. Because of this, this SI explored the digital transformation phenomenon and its potential contributions to supporting firms, supply chains and the government during these situations. Thus, by a competitive process, we selected 15 papers to integrate this SI. On the one hand, the papers cover different emergency situation-related contexts. On the other hand, because of the contemporary influence of COVID-19, several papers in this SI explored its impacts and the role of digital transformation in responding to and minimizing the effects. Finally, we provide some insightful research directions considering scholars, practitioners, and government.