Research on sustainable green building space design model integrating IoT technology.

"How can the integration of Internet of Things (IoT) technology enhance the sustainability and efficiency of green building (G.B.) design?" is the central research question that this study attempts to answer. This investigation is important because it examines how green building and IoT technology can work together. It also provides important information about how to use contemporary technologies for environmental sustainability in the building sector. The paper examines a range of IoT applications in green buildings, focusing on this intersection. These applications include energy monitoring, occupant engagement, smart building automation, predictive maintenance, renewable energy integration, and data analytics for energy efficiency enhancements. The objective is to create a thorough and sustainable model for designing green building spaces that successfully incorporates IoT, offering industry professionals cutting-edge solutions and practical advice. The study uses a mixed-methods approach, integrating quantitative data analysis with qualitative case studies and literature reviews. It evaluates how IoT can improve energy management, indoor environmental quality, and resource optimization in diverse geographic contexts. The findings show that there has been a noticeable improvement in waste reduction, energy and water efficiency, and the upkeep of high-quality indoor environments after IoT integration. This study fills a major gap in the literature by offering a comprehensive model for IoT integration in green building design, which indicates its impact. This model positions IoT as a critical element in advancing sustainable urban development and offers a ground-breaking framework for the practical application of IoT in sustainable building practices. It also emphasizes the need for customized IoT solutions in green buildings. The paper identifies future research directions, including the investigation of advanced IoT applications in renewable energy and the evaluation of IoT's impact on occupant behavior and well-being, along with addressing cybersecurity concerns. It acknowledges the challenges associated with IoT implementation, such as the initial costs and specialized skills needed.

Improving the Mental Health of Surgical Teams Through Operating Room Design.

OBJECTIVE: In this study, we aim to develop and propose an evaluation method for analyzing the design of operating rooms (ORs) from the perspective of surgical teams' reported experiences and stress levels. BACKGROUND: Stress and burnout of surgical team members can lead to diminished performance and medical errors, which endangers the safety of both the patients and team members. The design and layout of the OR play a critical role in managing such stress. METHODS: To understand surgical teams' spatial needs related to their experiences and stress, we administered a survey and in-depth focus group discussions to three surgical teams from the same organization. The identified spatial needs were translated into functional scenarios and spatial metrics, essentially viewing the OR through the perspective of users. RESULTS: Our analysis revealed four integral sections-patient flow, room organization, access to facilities/medical equipment/support staff/team members, and staff well-being-identified as critical design factors associated with the experiences and stress levels of the surgical teams in the ORs. CONCLUSIONS: We expect this method to serve as a tool for evaluating the effect of the design of OR layouts on stress, thereby supporting the well-being and resiliency of surgical teams.

The Role of the Built Environment as a Therapeutic Intervention in Mental Health Facilities: A Systematic Literature Review.

OBJECTIVES: This systematic literature review synthesizes and assesses empirical research concerning the use of the built environment as a therapeutic intervention in adult mental health inpatient facilities. The review explores the impact of facility design on patient outcomes. BACKGROUND: There is a growing recognition that the built environment in mental health facilities must strike a balance between ensuring safety and providing a therapeutic atmosphere. A review addressing how facility design contributes to this therapeutic environment is warranted. METHODS: Database searches were conducted in CINAHL, Embase, PsychInfo, PubMed, and Web of Science from inception up to March 10, 2022. The Scottish Intercollegiate Guidelines Network (SIGN50) critical appraisal checklists were used to assess the quality of included studies. RESULTS: Of the 44 peer-reviewed studies identified from nine countries, several factors emerged as vital for the therapeutic environment in mental health inpatient facilities. These included personal spaces prioritizing privacy and control of the environment, daylight-optimized spaces, versatile communal areas promoting activities and interaction, designated areas for visits and spiritual/contemplative reflection, homelike environments, the inclusion of artwork in units, open nursing stations, and dedicated female-only areas. Yet, there is a need for research yielding stronger evidence-based designs harmonizing with therapeutic needs. CONCLUSION: This review offers initial guidance on designing mental health facilities that foster a therapeutic environment, while highlighting that the influence of facility design on mental health inpatients is considerably under-researched.

Toward a Future Orientation: A Supportive Mental Health Facility Environment.

BACKGROUND: The provision of supportive environments is essential in clinical and environmental psychology. Mental health disorders are a major issue, and the experience of being at a mental health facility is affected by numerous factors related to the building's design. AIM: The aim of this study is to explore the expectations of a mental health facility planning group regarding the potential impact of a supportive design on patients' mental health and staff's therapeutic practices when planning and designing a new mental health facility. METHODS: The new mental health facility is a case study and data were collected through qualitative in-depth interviews with nine participants and analyzed using a thematic analysis. The participants came from a mental health facility planning group in a new mental health facility in Norway. RESULTS: The overall expectation of the new building was related to a future orientation to support patients' mental health and therapeutic practices. Three main themes were identified: toward a future orientation, supportive building design, and work environment. CONCLUSIONS: Supportive environments are expected to influence patients' mental health and staff's therapeutic practices, including providing options for novel treatment needs in contrast to older and more outdated buildings that are perceived as hindering appropriate treatment conditions.

Developing Resilient Community Spaces in Healthcare Facilities: An Exploratory Study of a Public Health Crisis.

OBJECTIVES: This exploratory study aimed to investigate the impact of the COVID-19 pandemic on the design of healthcare facilities, particularly those featuring communal spaces. It sought to identify strategies that were implemented, learned, or recognized when adapting to the limitations imposed by protective measures during the pandemic. BACKGROUND: Third places are social gathering places outside of home and work. Over time, these community-centric places evolved from free-standing getaways to more integrated niches in diverse contexts including healthcare. Their numerous advantages for users include enhancing community bonds and collaboration among healthcare workers. The onset of the COVID-19 pandemic resulted in a need to rethink the design of such spaces to make them more adaptable and resilient. METHODS: An exploratory qualitative study was conducted through in-depth semi-structured interviews with sixteen practitioners involved in healthcare architecture and design projects during the pandemic. Data were analyzed using a thematic analysis approach. RESULTS: Findings indicate that the design of shared spaces in healthcare facilities for pandemic-like situations requires a special focus on modifiability and multifunctionality, achievable through strategies such as the use of movable, unconnected, and rearrangeable furniture or partitions that could swiftly change the function of a space. Other strategies include the capacity for compartmentalization of spaces, fostering indoor-outdoor connections, integrating advanced technology, and implementing effective infection control measures. Detailed emergent themes and examples of experienced constraints are discussed. CONCLUSIONS: Insights gained from our findings can be applied to new and ongoing healthcare design projects to ensure resiliency during normal and pandemic conditions.

Effects of virtual reality v. biophilic environments on pain and distress in oncology patients: a case-crossover pilot study.

This pilot study aimed to determine if a biophilic Green Therapy or Virtual Reality environment can decrease an oncology patient's pain and distress while receiving chemotherapy. A case-crossover pilot study was conducted in a comprehensive cancer infusion center. 33 participants with breast, gynecologic, gastrointestinal, pancreatic and prostate cancers were all included in three rooms in a random order at different cycles: control room, Green Therapy room, and Virtual Reality room to receive chemotherapy, respectively. Participants' pain, distress, heart rate, blood pressure, and saliva cortisol were measured before and after infusion in each room. No statistical significance differences were shown in the changes of heart rate, systolic, or diastolic blood pressure, saliva cortisol, pain, or distress before and after infusion between the control, Green Therapy, and Virtual Reality rooms. However, more patients reported the experience as "fun" and "enjoyable" when they were in Green Therapy or Virtual reality room as compared to in the control room. Additionally, since participating in the study, 14 patients reported spending at least 30 min or more outside in nature. In this study, we found that patients' heart rate, blood pressure, and self-reported distress levels were reduced after each biophilic intervention although results are not statistically significant. The study also suggested that biophilic interventions are safe and feasible and may complement the standard of care for oncology patients.

Telemedicine Implementation in COVID-19 ICU: Balancing Physical and Virtual Forms of Visibility.

OBJECTIVE: This case study examines the implementation of inpatient telemedicine in COVID-19 intensive care units (ICUs) and explores the impact of shifting forms of visibility on the management of the unit, staff collaboration, and patient care. BACKGROUND: The COVID-19 crisis drove healthcare institutions to rapidly develop new models of care based on integrating digital technologies for remote care with transformations in the hospital-built environment. The Sheba Medical Center in Israel created COVID-19 ICUs in an underground structure with an open-ward layout and telemedicine control rooms to remotely supervise, communicate, and support the operations in the contaminated zones. One unit had a physical visual connection between the control room and the contaminated zone through a window, while the other had only a virtual connection with digital technologies. METHODS: The findings are based on semistructured interviews with Sheba medical staff, telemedicine companies, and the architectural design team and observations at the COVID-19 units during March-August 2020. RESULTS: The case study illustrates the implications of virtual and physical visibility on the management of the unit, staff collaboration, and patient care. It demonstrates the correlations between patterns of visibility and the users' sense of control, orientation in space, teamwork, safety, quality of care, and well-being. CONCLUSIONS: The case study demonstrates the limitations of current telemedicine technologies that were not designed for inpatient care to account for the spatial perception of the unit and the dynamic use of the space. It presents the potential of a hybrid model that balances virtual and physical forms of visibility and suggests directions for future research and development of inpatient telemedicine.

Field testing an "acoustic lighthouse": Combined acoustic and visual cues provide a multimodal solution that reduces avian collision risk with tall human-made structures.

Billions of birds fatally collide with human-made structures each year. These mortalities have consequences for population viability and conservation of endangered species. This source of human-wildlife conflict also places constraints on various industries. Furthermore, with continued increases in urbanization, the incidence of collisions continues to increase. Efforts to reduce collisions have largely focused on making structures more visible to birds through visual stimuli but have shown limited success. We investigated the efficacy of a multimodal combination of acoustic signals with visual cues to reduce avian collisions with tall structures in open airspace. Previous work has demonstrated that a combination of acoustic and visual cues can decrease collision risk of birds in captive flight trials. Extending to field tests, we predicted that novel acoustic signals would combine with the visual cues of tall communication towers to reduce collision risk for birds. We broadcast two audible frequency ranges (4 to 6 and 6 to 8 kHz) in front of tall communication towers at locations in the Atlantic migratory flyway of Virginia during annual migration and observed birds' flight trajectories around the towers. We recorded an overall 12-16% lower rate of general bird activity surrounding towers during sound treatment conditions, compared with control (no broadcast sound) conditions. Furthermore, in 145 tracked "at-risk" flights, birds reduced flight velocity and deflected flight trajectories to a greater extent when exposed to the acoustic stimuli near the towers. In particular, the 4 to 6 kHz stimulus produced the greater effect sizes, with birds altering flight direction earlier in their trajectories and at larger distances from the towers, perhaps indicating that frequency range is more clearly audible to flying birds. This "acoustic lighthouse" concept reduces the risk of collision for birds in the field and could be applied to reduce collision risk associated with many human-made structures, such as wind turbines and tall buildings.

Challenges in the establishment of a biosafety testing laboratory for COVID-19 in Bangladesh.

At the beginning of the coronavirus disease 2019 (COVID-19) pandemic in Bangladesh, there was a scarcity of ideal biocontainment facilities to detect the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a risk group of 3 organisms. Molecular detection of SARS-CoV-2 must be performed in a BSL-2 laboratory with BSL-3-equivalent infection prevention and control practices. Establishing these facilities within a short timeframe proved to be an enormous challenge, including locating a remote space distant from the university campus to establish a laboratory, motivating the laboratory staff to work with a novel pathogen without any prior experience, allocation of funds for essential equipment and accessories, and arrangement of a safe waste management system for environmental hazard reduction. This report also highlights several limitations, such as the facility's architectural design that did not follow the biosafety guidelines, lack of continuous flow of funds, and an inadequate number of laboratory personnel. This article describes various efforts taken to overcome the challenges during the establishment of this facility that may be adopted to create similar facilities in other regions of the country. Establishing a BSL-2 laboratory with BSL-3-equivalent infection prevention and control practices will aid in the early detection of a large number of cases, thereby isolating persons with COVID-19, limiting the transmission of SARS-CoV-2, and promoting a robust public health response to contain the pandemic.

Observational study of anaesthesia workflow to evaluate physical workspace design and layout.

BACKGROUND: The safety and efficiency of anaesthesia care depend on the design of the physical workspace. However, little is known about the influence that workspace design has on the ability to perform complex operating theatre (OT) work. The aim of this study was to observe the relationship between task switching and physical layout, and then use the data collected to design and assess different anaesthesia workspace layouts. METHODS: In this observational study, six videos of anaesthesia providers were analysed from a single centre in the United States. A task analysis of workflow during the maintenance phase of anaesthesia was performed by categorising tasks. The data supported evaluations of alternative workspace designs. RESULTS: An anaesthesia provider's time was occupied primarily by three tasks: patient (mean: 30.0% of total maintenance duration), electronic medical record (26.6%), and visual display tasks (18.6%). The mean time between task switches was 6.39 s. With the current workspace layout, the anaesthesia provider was centred toward the patient for approximately half of the maintenance duration. Evaluating the alternative layout designs showed how equipment arrangements could improve task switching and increase the provider's focus towards the patient and visual displays. CONCLUSIONS: Our study showed that current operating theatre layouts do not fit work demands. We report a simple method that facilitates a quick layout design assessment and showed that the anaesthesia workspace can be improved to better suit workflow and patient care. Overall, this arrangement could reduce anaesthesia workload while improving task flow efficiency and potentially the safety of care.

Evaluation of airflow pattern and thermal behavior of the arched greenhouses with designed roof ventilation scenarios using CFD simulation.

Natural ventilation is an effective energy-saving strategy conducive to promoting sustainable agricultural production. A comprehensive numerical simulation is performed to predict the airflow pattern and thermal behavior in different arched greenhouses. The defined arc chord angle and position angle are employed to examine the natural ventilation process and corresponding roof vent scenarios. The numerical simulation is compared with the experimental data and good agreements are observed. Various configurations of ventilated structures, wind conditions and ventilation layouts are simulated on a high-resolution polyhedral grid based on a grid sensitivity analysis, which is beneficial to the optimization of greenhouse cooling combined with the water circulation heat collection system. The cooling effect in summer is analyzed by estimating the ventilation flow rate and microclimate inhomogeneity. The results demonstrate that the position angle of 85° of the arched greenhouses is an optimum ventilation direction and its impact on the microclimate is marginally affected by the change of the ventilation structure. The designed ventilation scheme has perfect air exchange capacity and cooling effect because the average air temperature can be reduced by 1.5°C more than the existing greenhouse in 10 minutes of ventilation. Likewise, the results show that the temperature and velocity inhomogeneities are approximately decreased by 33.3% and 11.89%, respectively. The practical value of the research is expected to provide basic quantitative conclusions for evaluating the natural ventilation performance.

A study of the layout planning of plant facility based on the timed Petri net and systematic layout planning.

The purpose of this research is to solve the problems of unreasonable layout of the production plant, disorder of the logistics process, and unbalanced production line in discrete manufacturing plants. By analyzing the production process and characteristics, the timed Petri net model is constructed according to the function and connection of each production unit, which is then used to generate a FlexSim simulation model of the production plant logistics system with a simulation software. Therewith the FlexSim simulation model is used to simulate the original layout of the plant, and to analyse the simulation data synthetically to put forward an improvement strategy. Combined with the use of the systematic layout planning method to analyze the overall layout of the plant and logistics relations, we infer the relevant drawings between the production units and determine the improved layout of the facilities. Finally, by comparing the before and after improvement simulation results, it is verified that the combination of timed Petri nets and systematic layout planning is effective to ameliorate the layout of the plant facilities and the logistics system. This method makes up for the factors that traditional methods have not considered, achieves the goal of reducing the cross circuitous route of the plant and the idle rate of equipment, and improving the efficiency of production.

Practice-Based Research Methods and Tools: Introducing the Design Diagnostic.

OBJECTIVE: To introduce a composite tool called Design Diagnostic that allows a rapid but triangulated insight into key areas of a facility combining the methods of shadowing, behavior mapping, surveys, interviews, photo-essays, and parametric analysis to determine key challenges and opportunities for improvement, identify future design drivers, and recommend simple "do-now" changes. BACKGROUND: Research-based practice relies on agile and nimble methods to investigate, evaluate, and apply research in project work. This requires the ability to scale methodologies, so they can provide actionable insights in often constrained time lines. Surveys, observations, space analytics, and lit reviews often need to be done in extremely short periods of time. In this article, we share how these processes can be condensed to meet time constraints of project time lines, with the critical reminder not to generalize contextually derived insights. CONCLUSION: Combining field research (shadowing and behavior mapping) with user engagement (interviews), user feedback (surveys), and analytics of the plan itself allows designers and owners to understand the relationship between design intent and operational outcome and be resource effective in capital planning projects. Scaling these methods to fit the time and resource availability, and ensuring that results are always reviewed and applied in context, is critical.

Maintaining Operations and Staff Morale amid Redevelopment and Construction.

The purpose of this article is to share how one Canadian hospital is using a blend of project management and change management strategies as well as operational readiness best practices to help maintain operations and staff morale in a large urban emergency department as it redevelops its current space (to approximately double the current size) over a four-year period. Crucial to its ongoing success is robust support of senior and program leadership, project and change management resources and clinical leads working collaboratively to address and plan for the impacts of construction.

Design of the Academic Emergency Department.

This article introduces a clinical audience to the process of emergency department (ED) design, particularly relating to academic EDs. It explains some of the major terms, processes, and key decisions that clinical staff will experience as participants in the design process. Topics covered include an overview of the planning and design process, issues related to determining needed patient capacity, the impact of patient flow models on design, and a description of several common ED design types and their advantages and disadvantages.