Operational Readiness Research Articles

Influence of Mental Model-derived Themes on the Quality of Radiological Emergency Response by HAZMAT Technicians: Insights from a Case Study.

This paper investigates the link between gaps in emergency responders' notions of mental model regarding radiation and risk and their effectiveness in responding to radiological incidents. Particularly, this work focused on exploring themes that emerged in prior work related to improper understanding and application of knowledge concepts related to radiation risks and Radiological Dispersal Device (RDD) scenarios (Leek et al., 2024b). The research uses a quantitative approach to correlate various thematic elements, such as responders' confidence levels, comprehension, and application of radiation risk principles, with the quality of the emergency response score gained through a virtual reality simulation. The results underscore a strong effect of responders' confidence level on response quality scores. Additionally, the study identifies that improper understanding of knowledge concepts and incorrect application of radiation risk and RDD concepts are factors that detract from the quality of response, especially the tendency to overestimate health risks associated with a 25-rem (0,25 Sv) dose and to misapply principles of radiation risk. The implications of this research are significant for the development and refinement of training programs for hazardous materials (HAZMAT) technicians and other emergency responders. The findings suggest the need for a comprehensive review of current training methodologies to address the identified deficiencies that had impacts on the quality of response. The findings provide a foundation for reshaping training priorities and operational readiness, driving the development of training that is both grounded in empirical evidence and that directly addresses the knowledge gaps influencing response quality. The methodological framework developed and employed, including the quality scoring system and the Expected Mental Model State (EMMS) Diagnostic Matrix, also hold potential for broader application in future investigations, extending to diverse types of responders and emergency scenarios.

Approximating the Pareto frontier for bi-objective preventive maintenance and workshop scheduling: A Lagrangean lower bounding methodology for evaluating contracting forms

AbstractEffective planning of preventive maintenance plays an important role in maximizing the operational readiness of any industrial system. We consider an operating system and a maintenance workshop governed by two stakeholders who collaborate based on a mutual contract: components of the operating system that need maintenance are sent to the maintenance workshop, where necessary maintenance activities are performed and after which the maintained components are returned to the operating systems and ready to be used again. While the maintenance activities must obey the workshop capacity, the components should be returned to the operating system within a contracted time frame. For this problem, we developed in a previous work a mixed-integer linear optimization model incorporating stocks of damaged as well as repaired components, workshop scheduling, and preventive maintenance planning for the operating system. We then investigated an availability contract between the stakeholders and which is in the paper at hand compared with a turn-around time contract type, which is more often used in reality. Since, for real instance sizes, the latter leads to a computationally demanding bi-objective optimization problem, we use Lagrangean relaxation and subgradient optimization to compute local lower bounds on the set of non-dominated points, complemented with math-heuristics to identify good feasible solutions (i.e., local upper bounds). Our suggested method thus provides a bounding of the set of non-dominated points for a turn–around time contract.

Epidemic preparedness and response capacity against infectious disease outbreaks in 186 countries, 2018–2022

ObjectivesDisruptive public health risks and events, including infectious disease outbreaks, are inevitable, but their effects can be mitigated by investing in prevention and preparedness. We assessed the epidemic preparedness and response capacities of health systems in 186 countries from 2018 to 2022.MethodsWe utilized data from the International Health Regulations (IHR) State Party Self-Assessment Annual Reporting (SPAR) submissions to assess health systems’ IHR capacities to (1) prevent, (2) detect, (3) respond, (4) enable resources and coordinate, and (5) ensure operational readiness from 2018 to 2022. We categorized the IHR capacities into five levels, with level 1 denoting the lowest level of national capacity and level 5 the highest. We calculated each index’s capacity level as the arithmetic mean of its related indicators and analyzed changes over time using the Mann–Kendall nonparametric trend test.ResultsSPAR reporting marginally improved from 92.9% (182 of 196 countries) in 2018 to 94.9% (186 of 196 countries) in 2022, with considerable improvement in all five capacity domains over this period: prevention (58.4 in 2018 to 66.5 in 2022), detection (74.7 to 78.3), response (56.5 to 67.8), enabling resources and coordination (63.0 to 68.3), and ensuring operational readiness (62.8 to 69.9). From the 2022 submissions, 116 (62%) countries reported functional (Level 4 or 5) prevention capacity, 162 (87%) had functional detection capacity, 118 (63%) had functional response capacity, 121 (65%) had functional enabling resources and coordination capacity, and 133 (72%) had functional operational readiness against public health events. Across all the indexes, the WHO African Region reported the fewest countries with functional capacity in these domains.ConclusionsThere was an overall increase in functional capacity across all five domains at both global and regional levels; and a high percentage of countries achieved functional capacity across all domains in 2022. However, a significant number of countries, particularly in the Global South, have yet to achieve functional competence in these capacities, leaving the world vulnerable to the persistent risk of epidemics and infectious biohazards. Strengthening IHR competencies through local, national, and global engagements must be urgently prioritized to achieve global health security against infectious diseases.

Robotics in Disaster Management: AI-Driven Rescue, Aerial Mapping, and Emerging IoT Applications for Effective Response

This review paper explores the growing role of robotics in disaster management, focusing on the integration of artificial intelligence (AI), Internet of Things (IoT) applications, and advanced simulation environments. Highlighting lessons from events like the Fukushima nuclear disaster and Wenchuan earthquake, it examines the deployment of aerial, ground, and underwater robots in tasks such as data collection, search and rescue, and hazard monitoring. AIoT frameworks enable these robotic systems to classify objects and make decisions on-site, supporting timely and efficient responses in hazardous conditions. Virtual platforms like the DARPA Virtual Robotics Challenge, using simulators such as Gazebo and CloudSim, facilitate realistic testing of robotic capabilities in disaster scenarios, advancing operational readiness through virtual training. This review synthesizes recent progress in AI-driven disaster robotics, identifies challenges, and discusses potential improvements for future applications.

Do Fellowship-educated Military Orthopaedic Oncologists Who Practice in Military Settings Treat a Sufficient Volume of Patients to Maintain Their Oncologic Expertise?

Fellowship-trained orthopaedic oncologists in the US military provide routine clinical care and also must maintain readiness to provide combat casualty care. However, low oncologic procedure volume may hinder the ability of these surgeons to maintain relevant surgical expertise. Other low-volume specialties within the Military Health System (MHS) have established partnerships with neighboring civilian centers to increase procedure volume, but the need for similar partnerships for orthopaedic oncologists has not been examined. The purpose of this study was to characterize the practice patterns of US military fellowship-trained orthopaedic oncologists. We asked the following questions: (1) What are the diagnoses treated by US military fellowship-trained orthopaedic oncologists? (2) What are the procedures performed by US military fellowship-trained orthopaedic oncologists? We queried the Military Data Repository, a centralized repository for healthcare data for all healthcare beneficiaries (active duty, dependents, and retirees) within the Defense Health Agency using the MHS's Management and Reporting Tool for all international common procedure taxonomy (CPT) codes and ICD-9 and ICD-10 codes associated with National Provider Identifier (NPI) numbers of active duty, military fellowship-trained orthopaedic oncologists. Fellowship-trained orthopaedic oncologists were identified by military specialty leaders. Then, we identified all procedures performed by the orthopaedic oncologist based on NPI numbers for fiscal years 2013 to 2022. We stratified the CPT codes by top orthopaedic procedure categories (such as amputation [performed for oncologic and nononcologic reasons], fracture, arthroplasty, oncologic) based on associated ICD codes. These were then tabulated by the most common diagnoses treated. Thirteen percent (796 of 5996) of the diagnoses were oncologic, of which 45% (357 of 796) were malignant. Forty-four percent (158 of 357) of the malignancies were primary and 56% (199 of 357) were secondary; this translates to an average of 2 patients with primary and 2.5 patients with secondary malignancies treated per surgeon per year. During the study period, nine orthopaedic oncologists performed 5996 orthopaedic procedures, or 74 procedures per surgeon per year. Twenty-one percent (1252 of 5996) of the procedures were oncologic; the remaining procedures included 897 arthroplasties, 502 fracture-related, 275 amputations for a nononcologic indication, 204 infections, 142 arthroscopic, and 2724 other procedures. Although military orthopaedic oncologists possess expert skills that are directly translatable to combat casualty care and operational readiness, within MHS hospitals they treat relatively few patients with oncologic diagnoses, and less than one-half of those involve malignancies. Despite postgraduation procedure volume raining stable over the last decade, it is unknown how many new patient visits for oncologic diagnoses and how many corresponding tumor procedures are necessary to maintain competence or build confidence after musculoskeletal oncology fellowship training. It is important to note that there are no military orthopaedic oncology fellowships, and all active duty orthopaedic oncologists undergo training at civilian institutions. Military-civilian partnerships with high-volume cancer centers may enable military orthopaedic oncologists to work at civilian cancer centers to increase their oncologic volume to ensure sustainment of operationally relevant knowledge, skills, and abilities and improve patient care and outcomes.

Modernisasi Alat Utama Sistem Senjata TNI dalam Mendukung Tugas TNI AL

This study analyzes the modernization of TNI AL weaponry systems to support maritime defense tasks in Indonesian jurisdictional waters. Using the Analytic Network Process (ANP) method, the research identifies the challenges and obstacles faced, as well as determining modernization priorities. The ANP results show that modernizing the Indonesian Navy Warship (KRI) is the top priority, followed by the development of Fast Missile Boats (KCR), the modernization of the Maritime Air Defense System, and the procurement of new submarines. Additionally, the Indonesian Navy faces both conventional military threats, such as naval attacks from other countries, and asymmetric threats, including piracy and maritime terrorism. To address these threats, the Indonesian Navy needs to develop advanced technologies, including cyber security and monitoring technologies to prevent illegal activities at sea. The study also finds that modernization efforts face various obstacles, requiring the improvement of maintenance facilities and intensive training. The use of ANP and NVivo helps formulate an effective modernization strategy to enhance operational readiness and the maritime defense capabilities of the Indonesian Navy.

Development of the Joint Expeditionary Medical Officer.

The Uniformed Services University is known for its dual mission of preparing military medical officers for operational readiness and leadership roles. The Joint Expeditionary Medical Officer (JEMO) project is a novel internal program that was initiated in 2022 and aims to fortify and evaluate the essential Knowledge, Skills, and Abilities (KSAs) within the School of Medicine's Molecules to Military Medicine curriculum that are pivotal for the development of a deployment-ready military medical officer. The JEMO-KSA program identifies and deliberately develops a core set of mission-critical skills during the course of students' undergraduate medical education. This helps ensure that Uniformed Services University graduates attain a strong foundational level of operational readiness across various military medical domains. Currently, 371 distinct KSAs have been integrated into the curriculum, with over 86% being assessed at different time frames. Over time, our goal is to present individual students with a customized JEMO "report card" depicting their readiness level; a document that could be updated and expanded throughout their military medical career. The JEMO project represents a significant stride toward optimizing the readiness of military medical officers by systematically identifying, strengthening, and assessing vital operational skills and abilities. With an ongoing commitment to excellence, the project envisages creating an even more robustly structured curriculum that is continually refined to address current operational readiness, setting a new standard for military medical education. While challenges such as accurately measuring the impact of integrated KSAs and continuously updating them to meet evolving military needs remain, the forward momentum associated with the JEMO project will help facilitate the development of military medical officers who have the KSAs to actively support mission success while simultaneously enhancing the overall effectiveness of military health care.

Analisa Strategis Kesiapan Operasional TNI Angkatan Laut dalam Menghadapi Dinamika Lingkungan Maritim

Indonesia, as the largest archipelagic nation globally, faces significant strategic challenges in its maritime domain. The Indonesian Navy's preparedness is paramount in safeguarding the nation's interests amid evolving geopolitical dynamics, resource competition, and maritime security threats such as piracy and terrorism. This paper examines the role and importance of the Operational Ready Force (ORF) within Indonesia's maritime defence strategy. By employing strategic analysis, the study evaluates the Navy's operational readiness, focusing on resource allocation, technological advancements, and international cooperation necessary to enhance the ORF's effectiveness. The research utilizes a comprehensive methodology, including literature review, official documents, and expert interviews, to provide an in-depth understanding of the Indonesian Navy's readiness to address dynamic maritime environments. The paper also explores the strategic implications of global, regional, and national maritime developments, emphasizing the necessity for an adaptive and resilient maritime strategy. The findings suggest that ORF is crucial in bolstering the Indonesian Navy's capabilities, enabling rapid and effective responses to maritime threats while protecting national sovereignty. The study concludes with recommendations for further development of ORF, ensuring Indonesia's continued maritime security and regional stability through integrated technology, strengthened international collaboration, and adaptive threat response strategies.

Integrating Emerging Technologies in Military Maintenance and Repairs: An Overview of Current Status, Opportunities and Challenges

Maintenance and repair (M&R) of military equipment are crucial for operational readiness. The article highlights challenges faced by military forces, particularly in the US, with significant equipment non-operable due to inefficient M&R. It emphasizes modernizing M&R through Predictive Maintenance (PM) and 3D Printing (AM). PM employs AI and data analytics for real-time monitoring and foreseeing malfunctions, signifying a strategic shift in M&R. AM significantly curtails downtime by enabling on-demand spare parts production, presenting a solution to traditional military M&R challenges. The article also underscores the economic advantages and potential for operational efficiency improvements through these technologies. However, it points out hurdles in implementing PM and AM, including high initial costs, lack of trained personnel, and the threat of counterfeit production in AM.

Possibilities for Improving Algorithms for Combat Use of Aircraft Using Unguided Weapons

Combat actions in recent local conflicts make us consider and re-evaluate some of the concepts concerning the development of combat aviation. As it turns out, conducting combat operations at high intensity for a long period of time using all components of the armed forces shows that the use of high-tech aircraft is extremely expensive and requires a large period of time to bring them back to full operational readiness when damage has been inflicted on them during hostilities. This is evidenced by the limited use of 5th generation aircraft in local conflicts. They are mainly used at long distances and with a tangible technological superiority over the enemy. Also, the sustained use of high precision guided weapons proves to be extremely expensive. All this makes us think and apply a creative approach to finding a solution to these problems. One of these approaches is through the improvement or rather the modernization of existing combat platforms through the implementation of advanced mathematical models and algorithms for combat use, which will increase the accuracy and efficiency of the use of unguided weapons, which are significantly cheaper compared to using guided ones. As the accuracy of using unguided weapons increases, it approaches that of guided ones. This is very important in the conduct of prolonged intensive combat operations in the conditions of limited resources. On the other hand, the use of advanced algorithms for combat use will simplify and facilitate the pilot's work with the controls of the aviation armament during the execution of combat tasks.A general mathematical model and a general algorithm for the combat use of aircraft weapons are proposed. A general mathematical model was developed for solving the ballistic task for large groups of guided and unguided weapons, which is a component of the general algorithm for combat use.

Defining and identifying the critical elements of operational readiness for public health emergency events: a rapid scoping review

IntroductionCOVID-19 showed that countries must strengthen their operational readiness (OPR) capabilities to respond to an imminent pandemic threat rapidly and proactively. We conducted a rapid scoping evidence review to understand...

War on the pandemic: European armed forces and the impact of COVID-19 deployments on military readiness

ABSTRACT Examining the impact of the coronavirus pandemic on armed forces development, this article compares and contrasts the employment of six European armed forces in their efforts to provide emergency assistance to their respective governments between the first wave of COVID-19 infections from February 2020 and the fifth wave during the winter of 2021-2022. We present a comparative analysis and classification of the tasks undertaken by French, Austrian, Italian, British, German, and Swiss soldiers in health, logistics, and security. We find that a pandemic did not figure prominently in codified security policy and military doctrine before 2020. Additionally, we illustrate that the armed forces were used as a flexible go-to resource while containing COVID-19. Their employment meant a decrease in operational readiness leading to a withdrawal of soldiers in ongoing operations as well as the cancellation of exercises.

Evaluation of operational parameters and technology readiness for enhanced management of oilfield produced water treated by ozonation

Managing oilfield produced water (OPW) is a significant challenge for the petrochemical industry due to the high daily volumes generated and strict disposal limits for oil and grease (O&G) content. O&G levels are influenced by organic compounds known as naphthenic acids (NAs). This study explored ozonation to degrade cyclohexane carboxylic acid (CHCA, a model compound for NAs) present in a synthetic OPW matrix and reduce O&G in real OPW from offshore platforms. Experiments were conducted on four ozonation prototypes with varying effluent capacities: a simplified bench-scale prototype (200 mL), an extended bench-scale prototype (400 mL to 800 mL), a hydrodynamic cavitation reactor with Venturi (5 L), and a pilot unit reactor (25 L to 80 L). CHCA degradation ranged from 91 % to 100 % under optimized conditions for each prototype. Additionally, the ozonation treatment met the Brazilian National Environment Council’s disposal requirements for OPW in oceanic regions, achieving an O&G content below 29 mg/L within 30 min at natural pH. The energy required for degradation (ERC) decreased from 729.2 kWh/m3 to 30.3 kWh/m3 as ozonation scaled up from the simplified bench-scale system (200 mL) to the pilot scale (80 L). For real OPW, the ERC was even lower at 34.5 kWh/m3. These findings demonstrate the effectiveness of ozonation in treating OPW and underscore the importance of multi-scale studies to evaluate the technical and economic viability of this treatment technology. This contributes to the sustainable management of industrial waste even in space-restricted installations such as offshore oil production facilities.

Toxicity reference values for force health protection: Provisional occupational exposure guidelines

Force Health Protection programs in the U.S. Air Force endeavor to sustain the operational readiness of the warfighters. We have previously identified hundreds of chemical substances of interest and toxicity reference value (TRV) knowledge gaps that constrain risk based-decision-making for potential exposures. Multiple approaches to occupational TRV estimation were used to generate possible guideline values for 84 compounds (18% of the substances of interest). These candidate TRVs included values from international databases, chemical similarity (nearest neighbor) approaches, empirical adjustments to account for duration differences, quantitative activity relationships, and thresholds of toxicological concern. This present work describes derivation of provisional TRVs from these candidate values. Rodent bioassay-derived long-term worker Derived No-Effect Levels (DNELs) were deemed presumptively the most reliable, but only 19 such DNELs were available for the 84 substances with TRV gaps. In the absence of DNELs, the quality of the approaches and consistency among candidate values were key elements of the weight of evidence used to select the most suitable guideline values. The use of novel nearest-neighbor approaches, empirical adjustment of short term TRVs, and occupational exposure bands were found to be options that would allow occupational TRV estimation with reasonable confidence for nearly all substances evaluated.

Cognitive and Perceptual Augmentation Through Neuromodulation during Fatiguing Tasks is Sex-specific

Transformative paradigms to proactively mitigate fatigue through noninvasive neurostimulation, such as transcranial direct current stimulation (tDCS), have been shown to be more effective than existing interventions. The study aimed to evaluate the effectiveness of HD-tDCS (High-Definition) as a fatigue countermeasure on vigilance and perceived fatigue on longer bouts of mental fatigue. Thirty-two participants were assigned to active stimulation and sham groups, and they took part in a 2 hr fatigue protocol of 2-back visuospatial working-memory tests. To evaluate the effect of active stimulation, separate linear mixed-effect models with the group (stimulation/sham), phase (pre/post), and sex (male/female) were analyzed. The results showed the effectiveness of HD-tDCS in slowing fatigue-related declines across both cognitive and perceptual channels, with fatigue reduction being more effective in women. These observations could inform sex-based considerations to improve the operational readiness of tDCS-based countermeasure systems to help mitigate fatigue among emergency and military personnel.

Echocardiographic Predictors of Readiness for Double Switch Operation and Postoperative Ejection Fraction in Patients With Congenitally Corrected Transposition of the Great Arteries Undergoing Left Ventricular Retraining

In patients with congenitally corrected transposition of the great arteries (ccTGA), assessment of readiness for the double switch operation (DSO) after pulmonary arterial band (PAB) placement involves cardiac magnetic resonance imaging (cMRI) to measure left ventricular ejection fraction (LVEF) and mass and cardiac catheterization (catheterization) to assess the ratio of left ventricular to right ventricular pressure (LV:RVp). The aims of this study were to describe the relationships between echocardiographic and catheterization and cMRI measures of readiness for DSO and to develop risk factors for left ventricular (LV) dysfunction after DSO on the basis of echocardiographic measures of ventricular-arterial coupling (VAC). Patients with ccTGA undergoing LV retraining at a DSO referral center were reviewed. LVEF measured by echocardiography was compared with that measured by cMRI, and LV:RVp measured by echocardiography was compared with that measured by catheterization using Bland-Altman analysis. The relationship between preoperative VAC markers and postoperative echocardiography was analyzed using ventricular end-systolic elastance (EES) and a novel marker consisting of the product of LVEF and LV:RVp (EFPR). Thirty-one patients with 56 evaluations for DSO were included, 24 of whom underwent DSO. Echocardiographic LVEF correlated well with cMRI LVEF (r=0.79), and Bland-Altman analysis slightly overestimated cMRI LVEF (mean difference,+3%). Echocardiographic LVEF had a moderate ability to identify normal cMRI LVEF (area under the curve, 0.80) and at an optimal cut point of echocardiographic LVEF threshold of 61%, there was 71% sensitivity and 76% specificity to detect cMRI LVEF≥55%. Echocardiographic LV:RVp correlated well with LV/RVp by catheterization (r=0.77) and slightly underestimated the catheterization value (mean difference, -0.11). Echocardiographic LV:RVp had a good ability to identify adequate LV:RVp by catheterization (area under the curve, 0.95) and at an optimal echocardiography cut point of 0.75 had 100% sensitivity and 85% specificity to detect a catheterization LV:RVp >0.9. Echocardiography-based criteria for DSO readiness (echocardiographic LVEF of 61% and LV:RVp of 0.75) demonstrated specificity of 97% and positive predictive value of 96% for published criteria of DSO readiness (cMRI LVEF of 55% and catheterization LV:RVp of 0.9). EES and EFPR correlated with post-DSO LVEF (ρ=0.72 and ρ=0.60, respectively). EFPR of 0.51 demonstrated 78% sensitivity and 100% specificity for post-DSO LV dysfunction (LVEF<55%). Age at first PAB also strongly correlated with post-DSO LVEF (ρ=0.75). No patient with first PAB at <1year of age exhibited post-DSO LV dysfunction. Echocardiographic measures of LVEF and LV:RVp are reliable indicators of reference standard modalities and can guide management during retraining. The preoperative VAC markers EES and EFPR may be useful markers of post-DSO LV dysfunction. Values of echocardiographic LV:RVp >0.75 are likely to meet pressure-generation criteria for DSO and should be considered for referral to catheterization and cMRI evaluation for DSO. PAB placement before 1year of life may optimize LV outcomes in patients considered for DSO.

Ten years of walk the line

AbstractWhile the process safety principles conduct of operations, operational discipline, and operational readiness, have been a part of risk‐based process safety since the inception, recognizing the need for a formal management system connecting them and optimizing their value is a more recent concept introduced around 2010 with Walk the Line. Conduct of operations is concerned with how work is done in a manufacturing unit to produce consistent results. The philosophy behind Walk the Line is that to successfully produce consistent results, there are elements of leadership identifying the right tools, operators executing tasks correctly, and technical people monitoring results and changing the tools for continuous improvement. Each of these disciplines, management, operational, and engineering should be in place to ensure consistent performance and repeatable results. This paper reflects on the last 10 years of Walk the Line and highlights features of the conduct of operations model that supports a sustainable management system, continuous improvement, and reduction of process safety incidents.

Associations between Dietary Intake and Cardiovascular Disease Risk in American Career Firefighters: An Observational Study.

Firefighters have demanding jobs, requiring high levels of fitness in stressful situations for operational readiness, yet many firefighters are at an increased risk of developing cardiovascular disease (CVD). Diet is an important factor contributing to the development of CVD. The purpose of this study was to describe the dietary intake of firefighters and examine the associations between dietary intake and the CVD risk. Forty-six male career firefighters (age = 41.2 ± 11.2 years; BMI = 29.2 ± 4.1 kg/m2; body fat = 21.7 ± 6.1%) enrolled in a fitness-focused wellness program completed a health survey and a fitness assessment. The survey responses and fitness assessment were used to calculate the Framingham CVD Risk Score. Data were analyzed using R, the residual assumptions were verified, and the alpha level was set at 0.05. The results revealed that firefighters consume a standard American diet, with the overconsumption of meat and underconsumption of fruits and vegetables. The average CVD risk approached the upper limit of low risk. The results also indicate that meat servings and preparation fat affect the CVD risk (R2 = 0.21, p = 0.006). The outcomes of this study can inform investigations aimed at improving operational readiness and reducing the CVD risk in firefighters by implementing a holistic approach combining dietary interventions with physical training.

The Importance of Networks and Relationships: Leveraging the Biocontainment Unit Leadership Workgroup for Special Pathogen Outbreak Response.

Developing and sustaining relationships and networks before an emergency occurs is crucial. The Biocontainment Unit Leadership Workgroup is a consortium of the 13 Regional Emerging Special Pathogen Treatment Centers in the United States. Established in 2017, the volunteer-based workgroup is composed of operational leaders dedicated to maintaining readiness for special pathogen care. Monthly meetings focus on addressing operational challenges, sharing best practices, and brainstorming solutions to common problems. Task forces are leveraged to tackle more complex issues that are identified as priorities. In 2022, members of the workgroup were harnessed for response efforts related to mpox, Sudan ebolavirus, and Marburg virus disease. The weekly Outbreak Readiness call is a shared effort between the Biocontainment Unit Leadership Workgroup and the Special Pathogens Research Network of the National Emerging Special Pathogens Training and Education Center. Call participants included leaders of the Regional Emerging Special Pathogen Treatment Centers and federal partners who shared weekly updates on operational readiness of units, case counts, laboratory capacity, available medical countermeasures, and other pertinent information. The routine exchange of real-time information enabled learning and collegial sharing of experiences, highlighted the experience of the network to federal partners, and provided situational awareness of special pathogen outbreaks across the country. The consortium enabled this rapid convening of partners to meet an urgent need for special pathogen response. The weekly Outbreak Readiness call is a communication model and scalable framework that serves both domestic preparedness efforts and international efforts should the need for a collaborative global response arise. In this case study, we describe the framework and experience of this partnership, along with the structure of rapid deployment for group convening.

WZMACNIANIE ŚRODKÓW BEZPIECZEŃSTWA DLA WOJSKOWYCH BAZ LOTNICZYCH - INTEGRACJA ZAAWANSOWANYCH TECHNOLOGII I STRATEGII OPERACYJNYCH

The security of military air bases is of paramount importance in light of increasing global tensions and rapid technological advancements. The goal of this article is to investigate the protection of these critical installations by identifying significant threats, optimizing security measures, and integrating advanced technologies. The research problems of the work are presented in the form of questions: How can military air bases be protected against emerging technological threats? What are the most effective security measures for mitigating both external and internal threats? How can advanced technologies be integrated into existing security protocols to enhance overall security? The research hypothesis underscores the necessity for robust, multi-layered security systems combining physical protection, advanced technological measures, and clear operational procedures. The research methods used in the work include, among others, a comprehensive review of literature and data analysis. The study examines past incidents and current best practices. The research highlights the potential of advanced technologies such as drone surveillance, biometric access controls, and artificial intelligence to significantly enhance security. However, their successful implementation requires proper integration, continuous updates, and thorough training for personnel. The study also emphasizes the importance of balancing stringent security measures with operational efficiency, ensuring that enhanced security protocols do not impede daily operations. Internal security measures are critical, as insider threats can be as dangerous as external attacks. Stringent background checks, continuous personnel monitoring, and fostering a culture of security awareness are essential to mitigate these risks. The study calls for international cooperation to share best practices and innovations in military air base security, recognizing that these challenges are global and collaborative efforts can lead to more robust solutions. Future research should focus on developing advanced cybersecurity defenses, exploring the human factors influencing security personnel performance, and fostering international cooperation to share best practices. Integrating traditional security measures with modern technologies and international collaboration can significantly enhance the protection of military air bases, ensuring their safety and operational readiness in an increasingly volatile world. By addressing both conventional and emerging threats, this research provides actionable insights for enhancing the security of military air bases globally, ensuring their safety and operational readiness amidst evolving threats and technological landscapes.