Vol 11 - Issue 3

Technology and Innovation

List of Articles

This article presents the LOTUS tool, developed by the RASSCAS laboratory at ISEN Méditerranée, for assessing the social and environmental impacts of technological projects. LOTUS is a 3-hour workshop aimed at devising solutions to reduce these impacts. The tool is based on the work of Kate Raworth and the Stockholm Resilience Centre. Trials have shown that LOTUS has exceeded its initial objectives, making projects more acceptable and taking into account planetary limits and social needs. The tool is versatile and adaptable to different types of projects. The results underline the importance of taking social and environmental impacts into account in technology projects. LOTUS represents a significant advance in the responsible and sustainable design of technologies, and opens up future development prospects for more regenerative design.

This article offers an in-depth analysis of the interactions between economic intelligence (EI), artificial intelligence (AI), and territorial dynamics in the era of digital transformation. AI technologies—particularly generative AI—are profoundly reshaping the production, circulation, and valorization of strategic information, both within organizations and across territories. Building on academic work related to knowledge management and information governance, the study shows how territories can become experimental spaces for augmented collective intelligence, where AI contributes to strengthening competitiveness, innovation, and resilience. The article adopts an analytical and critical approach, examining the complementarity between algorithmic power and human judgment, as well as the conditions required for ethical and shared data governance.

The latitude and longitude geographic coordinates provided by Google Earth are affected by errors that suggest uncertainties in distance and route measurements. This study proposes improvement formulas to make geolocation data more accurate. In an approach that presents formulas for evaluating and improving uncertainties in distances produced by Google Earth, our results demonstrate that the uncertainties and errors in distances contained in measurements from Google Earth are tangible depending on the evaluation of short, long, or medium distances. The probability of errors in the coordinates provided by Google Earth is plus or minus (+/-) 2 meters. The distribution of errors as a function of distance shows that an error of +/- 3 m has only a 0.4% chance of being exceeded. This methodology takes into account the structure of the Earth’s globe: meridians, parallels, poles, the equator, hemispheres, and the Earth’s bumpy structure. These corrections help improve accuracy in applications that use geolocation as a means of optimizing services. Correcting errors from geographic coordinates using formulas that reduce errors would have an impact on geolocation in industries such as goods transportation, precision agriculture, and healthcare. While recognizing that geolocation offers significant benefits by transforming many fields, it raises some important questions regarding individual privacy.

Plants in the environment face constant stresses, either biotic or abiotic. These stresses can significantly reduce the productivity of important crops worldwide, with annual crop yield losses ranging from 25% to 50% of the total production. Biotic stress includes herbivores, pests and pathogens. Thus, plants have developed a multilayer defense system to prevent the problem of biotic stress which includes the constitutive (SAR) and induced defense system (ISR). The excessive use of synthetic chemicals has detrimental effects on the environment and human health, which discourages pesticide application in the agriculture sector. As a result, researchers worldwide have shifted their focus towards alternative eco-friendly strategies to prevent plant diseases. A variety of biological control agents are available for use. Currently, researchers are exploring the use of beneficial microorganisms as an eco-friendly strategy to control crop diseases. A range of bacterial genera and fungi have demonstrated great potential as biocontrol agents for various plant diseases. Apart from these, to date, researchers in biotechnology are exploring plant Systemic Acquired Resistance (SAR) and Induced Systemic Resistance (ISR), the role and mode of action against phytopathogens and plant stress. In this paper an effort has been made to describe the new biostimulants and natural elicitors made by biotechnology and nano technology in the last few years, as a new insight to the increase of SAR and ISR in plant defense systems.

Innovation in the medical and surgical fields seeks to optimize the quality of care delivered to patients. This study provides an overview of the new technologies that support this innovation in the field of orthopedics and traumatology and illustrates their application in the specific case of Nice University Hospital. It is based on a review of the literature and an interview with a university hospital research director focused on improving the care of patients with osteoarticular trauma. The results of this state-of-the-art review present the advantages and limitations of various technologies: modeling, simulation and three-dimensional (3D) printing, extended visualization, robotic and navigation systems, and internet and smartphone applications. Their integration into healthcare facilities and the healthcare ecosystem is discussed in relation to the concept of digital twins and criteria for human, organizational, and societal feasibility. This study contributes to the thinking of surgeons and their teams in developing their digital devices.

This article offers a critical analysis of how the concept of innovation is used in the French naval defense sector. Drawing on qualitative research conducted among engineers, sailors, and institutional decision-makers, it highlights the ambivalence of the term: at once an instrument of institutional legitimation and a performative category that orients action. Innovation here is embedded in power dynamics, revealing a divide between “top-down” innovations driven by the state and industry, and “bottom-up” innovations emerging from the field. Two visions are thus opposed: one that values technological rupture, complexity, and long-term projection, and another that prioritizes adaptability, simplicity, and practical mastery of equipment. This tension reshapes skills, roles, and professional hierarchies, while raising a central question: who actually holds the power to innovate within the Navy? Although open innovation promotes broad participation, the actual influence of frontline personnel on major strategic orientations remains limited. Far from being a neutral concept, innovation functions as an analyzer of political relations, structuring the dynamics between institutional elites and operational actors. The analysis reveals a growing sense of dispossession of operational know-how in favor of central stakeholders who possess the capacity to envision the future. Innovation thus becomes a lever for redistributing symbolic power in the making of organizational change.

In turbulent and uncertain environments, organizations increasingly rely on temporary structures to enhance their adaptability. This study investigates the role of task forces within the aerospace supply chain in developing the microfoundations of dynamic capabilities. Based on participant observation and interviews with supply chain actors, we identify how task forces, initially conceived as temporary crisis-response tools, evolve into adaptive mechanisms that foster responsiveness, collaboration, and strategic flexibility. Our findings highlight that while task forces can catalyze learning and coordination, their prolonged use may blur their temporary nature and shape emerging dynamic capabilities.