Berkeley, CA : , : Apress : , : Imprint : Apress, , 2024

9798868805271

1 online resource (462 pages)

660.6

Biotechnology

Internet of things

Cloud computing

Inglese

Includes bibliographical references and index.

Chapter 1: Introduction to Biotechnology and IoT Integration -- Chapter 2: Historical Development and Convergence -- Chapter 3: Smart Laboratories and IoT Transformation -- Chapter 4: Healthcare Revolution -- Chapter 5: Connected Biomedical Devices and Digital Integration -- Chapter 6: Data Management, Security, and Ethical Considerations -- Chapter 7: Precision Agriculture and Environmental Monitoring -- Chapter 8: Biometric Security Systems and Wearable Devices -- Chapter 9: Bioinformatics and Cloud Analytics -- Chapter 10: Future Trends, Innovations, and Global Collaboration.

Dive into the intricacies of biotech and IoT integration with a meticulously crafted journey through the chapters. This book unveils the synergies between lab-based biotech processes and cloud-connected technologies, promising a paradigm shift in healthcare, agriculture, and beyond. Beginning with an introduction to IoT applications and biotechnological principles, the book navigates historical developments and convergence. Chapters unfold transformation of laboratories into smart spaces, revolutionizing healthcare through remote patient monitoring and personalized medicine. Explore the world of IoT-enabled biomedical devices and their impact, while delving into data management, security challenges, and ethical considerations. The narrative extends to precision

agriculture, environmental monitoring, and synergy of biometric security systems with wearable devices. Bioinformatics and cloud analytics take center stage, unraveling their role in the biotech IoT landscape. Finally, gaze into the future, anticipating trends, innovations, and global collaborations, concluding with practical insights for professionals and enthusiasts alike. On completion, you will emerge from this enlightening journey equipped with a deep understanding of the transformative power at the intersection of biotechnology and IoT. Gain insights into the historical context, current applications, and future trends shaping the landscape. Armed with a wealth of technical knowledge, readers will navigate smart laboratories, healthcare revolutions, environmental interventions, and more. This book not only opens doors to the intricacies of biotech IoT but also provides practical guidance for navigating the evolving field. You will: Understand the core principles of IoT and its versatile applications across various fields Review the integration of IoT in laboratories, witnessing the metamorphosis of traditional labs into intelligent, connected spaces Explore real-world applications of IoT in healthcare, agriculture, and environmental monitoring.

Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2025

3-032-07200-X

1 online resource (165 pages)

Studies in Systems, Decision and Control, , 2198-4190 ; ; 641

321.319

Electric power distribution

Electric power production

Mechanics, Applied

Energy Grids and Networks

Electrical Power Engineering

Engineering Mechanics

Inglese

Current State and Analysis of Regulatory Requirements for Energy Efficiency of Buildings -- Models and Tools for Analyzing the Thermal Conditions of Buildings -- Modelling of Air Exchange in Premises -- Experimental Studies of Air Exchange Parameters and Microclimatic Characteristics.

Today, the issue of energy saving and energy security is of particular relevance both locally and globally. Today, the world is facing an acute problem of saving and rational use of energy resources in order not only to reduce their consumption but also to reduce pollutant emissions. For Ukraine, the issue of energy security has become particularly acute since the beginning of Russia's hybrid aggression. The destruction of energy infrastructure, the threat of disruption of energy supplies, and aggressive actions in the economic sphere are driving Ukraine to improve energy efficiency along the chain from production to consumption and to develop modern energy-saving technologies. According to the European Parliamentary Research Service, households are the largest energy consumers in Europe, with final energy consumption accounting for 28% of the total energy

consumption of all sectors. That is why researchers are focused on implementing resource-saving activities through the use of modern energy-efficient technologies in households and buildings, in particular, to reduce transmission and infiltration heat losses. To determine the extent of heat transfer losses, it is common to measure the thermal resistance of buildings on site. These measurements are usually made by analysing the low-density heat flux. To monitor the thermal insulation characteristics of building envelopes and materials used in repair work and establish their actual values, it is extremely important to develop modern monitoring tools and appropriate methods for measuring thermal resistance as the main indicator in assessing the energy efficiency of buildings.