It is the 21st century, the year 2020 A.D., and Earths population is estimated at around seven billion (I believe that the figure is likely 4much 여자 알바 higher than estimated), and we are developmentally at the Fourth Industrial Revolution, a time of technological and digital advancement.
We are also in the middle of a fourth Industrial Revolution, characterized by the digital world, genetics, robotics, 5G networks — and new insights into humankinds relationship to the natural world. The new dimension, known as the Fourth Industrial Revolution, is driving a fast-changing technology world, and the race to adopt it has also begun to reveal its
effects on firms value chains, and to begin setting new standards, creating a technological competitive edge.
The technologies of the Fourth Industrial Revolution may also help us to better prepare ourselves in case of disasters, and may even reverse some of the damage done by the previous industrial revolutions. Designing a new socioeconomic approach is a multi-sectoral challenge, and it will not come about overnight. For example, bringing together new education methodologies and the dynamic labour markets of developed economies and emerging economies will dramatically redesign socio-economic and
The new educational systems will impact less-competent, semi-skilled individuals in different ways. Companies will have to make sure that their workforce has the right skill mix to keep up with changing technologies.
And global governments need to adequately plan and regulate our emerging capabilities in order to keep us safe. If technology changes are not managed well, organizations cannot adjust, and governments fail to adopt and regulate the new technologies in order to reap the benefits of them for the purpose of limiting climate-related catastrophes. It is urgent that societies prepare to deal with the changes in technology, organizations, and environments.
Governments should assess current approaches and implement needed changes to accommodate emerging technologies and supporting regulatory and institutional mechanisms. Second, no matter which technologies are discussed and how they may contribute to enhancing particular tasks/aspects of disaster management, it is the organizations general mentality, strategic priorities, and institutional preparedness to deal with a new digital age that ultimately will determine if any particular technology, or set of technologies, is ever going to succeed.
Currently, there is a dearth of studies exploring these aspects in addition to the technologies, and exploring the impacts of digital transformation across the entire disaster management lifecycle at the country-level. Perhaps, the most pressing need is addressing the absence of research that addresses integration of findings from prior studies relevant to implementing Industry 4.0 technologies within disaster risk management. Possibly, the most urgent need is to respond to the lack of research which considers the integration of the findings of previous studies pertinent to the implementation of Industry 4.0 technologies in the context of disaster risk management. The Interior Ministry estimates disasters on average to incur losses worth PS5.4 trillion ($4.77 billion) in damages, with reconstruction costs reaching PS10.8 trillion.
The World Bank estimates global natural disasters to cost $520 billion, leaving 26 million people to live in poverty, according to one study. Oh Jee-
ho, a professor in environmental atmosphere sciences at the University of Pukyong, said the biggest driver of the cost effectiveness of disaster mitigation and management is precision.
Sorting and reorganizing data is the first step to maximizing the use of Fourth Industrial Revolution technologies such as artificial intelligence and big data analytics, says Sungkyunkwan University professor Yoon Hong-sik. Yoon has already used big data to create a safety map for his university that not only provides information about toxic or hazardous substances and materials around Pukyong University, but also details such as quantity.
This requires global collaboration and a common perspective of how technologies are changing our economic, social, cultural, and personal lives. We are at the cusp of a technological revolution that will dramatically change how we live, work, and relate to each other. The Fourth Industrial Revolution is the ongoing, evolving context within which disruptive technologies and trends like the Internet of Things (IoT), robotics, virtual reality (VR), and artificial intelligence (AI) are changing how contemporary humans live and work.
The Fourth Industrial Revolution (4IR)–characterized by a convergence of digital, biological, and physical worlds, and increasing use of emerging technologies like artificial intelligence, cloud computing, robotics, 3D printing, IoT, and advanced wireless technologies, among others–the Internet of Things has brought about a new era of economic disruption, with uncertain socioeconomic consequences for Africa.1 However, Africa was left behind in the last Industrial Revolution. Accelerated by changes in technology, the world is experiencing digital transitions via self-driving drones, smart robots, sensors, and 3D printing.
Ironically, this rapidly changing, space-age world is driving mankind back down to Earth, back into natures powers. Planet Earth is being destroyed in the name of development and job creation, all in an effort to accommodate climate change and global warming.
In recent years, the world has seen dangerous, devastating, devastating natural disasters that are devastating all over the planet. The universe has sent one final warning, severely lashing out at planet earth in extraordinary disasters around the globe.
In the past three years, we witnessed horrific, highly destructive natural catastrophes such as earthquakes, a tsunami,bushfires, and droughts. In the past, disasters used to occur in certain periods, rather than one disaster following another,not anymore. There are multiple such natural phenomena occurring around the world without human fatalities, yet also with significant destruction of infrastructure, livestock, animals, and mobile assets.
First, the Fourth Industrial Revolution has led to a convergence of technologies and a blurring of boundaries between physical and digital environments, which has affected personal and professional lives thereby changing fundamentals underlying societies, jobs, organizations, industries, and relationships . First, technologies are changing rapidly, and the ones in place today will be replaced by new ones very quickly, making much of this literature rather irrelevant.
Unfortunately, the Industrial Revolution has not reduced the pressure on natural capital, particularly in the poorest parts of the world–sub-Saharan Africa, the Amazon, and South Asia–where 896 million people continue to live in extreme poverty,relying on shared water bodies, pastureland, and biodiversity for survival.