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Electromagnetic Fields and Health Risks
Emeritus Professor (Dr.) Nicolaos Alexopoulos, Electrical Engineering and Computer Science, UCI Samueli School of Engineering, from the University of California, Irvine, based in the USA; a member of the New York Academy of Sciences, an ISI Highly Cited Author in Computer Science with more than 270 professional journal and conference papers, a Fellow of the Institute of Electrical and Electronics Engineers (IEEE), and twice recipient of the IEEE Schelkunoff Best Journal Publication Award, currently Vice President at Broadcom Foundation participates in Risk Roundup to discuss Electro-Magnetic field and Health Risks.
Electromagnetic Fields and Health Risks
The proliferation of human-made electromagnetic fields (EMFs) and electromagnetic radiation (EMR) is creating more questions than answers. That is perhaps because there is a growing concern that the human-made electromagnetic field is biologically active and is probably at the root of the increasing concern for the human-made electromagnetic field.
According to a paper published in nature, the human-made
EMF is dangerous because of its role of polarization in
the biological activity of human-made Electromagnetic Fields (EMFs) /
Electromagnetic Radiation (EMR). That brings us to an important question:
- Why
are human-made EMFs/EMR polarized?Do we
sufficiently understand how the biologically active electric and magnetic
fields impact living beings at cellular levels?
5G
There is a growing concern that 5G is packed with higher energy radiation that delivers potential damaging effects on humans and other living beings. The fears about radiofrequency radiation that can damage DNA and lead to cancer; cause oxidative damage that can cause premature aging; disrupt cell metabolism, and potentially lead to other diseases through the generation of stress proteins needs to be properly understood and evaluated.
From what is known at this point, the main effect of radiofrequency electromagnetic fields is the heating of body tissues. So,
- What
does the low exposure to EMF do to humans or any other living things?Do we understand
how the EMFs react at the cellular level?Has
there been any study done of the electromagnetic field from an evolutionary
perspective?What
is the electromagnetic band that 5G uses? How does it react to the human
environment? Do we
understand the risks enough to go ahead with deployment of 5G?Are
there any dangers of 5G to the environment and planet?Do we need
EMP protection?
The time is now to discuss and debate the Health Risks of Electromagnetic Fields.
For more, please watch the Risk Roundup Webcast or hear the Risk Roundup Podcast
About The Guest
Nicolaos G. Alexopoulos joined the UC Irvine faculty in 1997 as engineering dean and professor in the Department of Electrical Engineering and Computer Science. Under his leadership, 61 faculty members joined the school, totaling 105, and student enrollment grew from 1,160 undergraduate and 340 graduate students in 1997-98 to 2,215 undergraduate and 893 graduate students in 2007-08. Overall research expenditures also increased from $7.7 million during 1997-98 to $21.9 million in 2006-07. The Samueli School added 14 endowed chairs, ten members of the National Academies, and rose in the U.S. News and World Report Best Graduate Schools rankings from 49th in 1997-98 to 37th in 2007-08.
From 1969-96, Alexopoulos served on the faculty of the Department of Electrical Engineering at UCLA, assuming the roles of associate dean of faculty affairs and chair of the department during his tenure. He is the author of more than 270 professional journal and conference papers, has served on the editorial boards of several professional journals, and has been the editor-in-chief of Electromagnetics. In 1985, he was elected Fellow of the Institute of Electrical and Electronics Engineers (IEEE), and he has received the IEEE Schelkunoff Best Journal Publication Award twice (1985 and 1998). Ten of his journal publications have been published in volumes of the most significant contributions in the field. He was named the “Engineer of the Year” in 2000 by the Orange County Section of IEEE and received the Engineering Educator Award by the Orange County Engineering Council in 2001.
In 2002, the American-Hellenic Council honored Alexopoulos
for his distinguished service and contributions to Hellenism and the
American-Hellenic community. He also received an honorary doctorate from the
National Technical University of Athens for contributions to education and
research in engineering electrodynamics and his public lectures on the “Genesis
and Destruction of the First Research University: The Museum/Library of
Alexandria,” in 2005.
Dr. Alexopoulos is a member of the New York Academy of
Sciences and an ISI Highly Cited Author in computer science. He received
the 2006 Orange County Engineering Council Award for Outstanding Contributions
to Engineering Education in Orange County and was elected to the National
Academy of Engineering in 2007 for “contributions to microwave circuits,
antennas, and structures for low observable technologies, and for contributions
in engineering education.” Dr. Alexopoulos was also recently honored with
the Forum for Corporate Directors Chairman’s Award at the 13th Annual Director
of the Year awards event, and the AeA Engineering the Future Lifetime
Achievement Award at the 2008 15th Annual High-Tech Innovation Awards Dinner.
Together with engineering faculty and colleagues,
Alexopoulos supported the creation of numerous school and campus advancements,
including the establishment of the National Fuel Cell Research Center in 1997,
the Integrated Nanosystems Research Facility in 1998, establishing the first
“named” school on the UCI campus in 1999, and the Center for Pervasive
Communications and Computing in 2000. He also initiated and supported the
establishment of UCI’s California Institute for Telecommunications and
Information Technology (Calit2) in 2000, as well as the development and launch
of a new Biomedical Engineering Department in 2002. In 2006, he led the
creation of a Center for Engineering Science in Design, as well as celebrated a
new program called “LifeChips.” In 2007, The Edwards Lifesciences Center
for Advanced Cardiovascular Technology was established with a $5 million gift
from Edwards Lifesciences Corporation.
Alexopoulos is the former principal investigator of the California Alliance for Minority Participation (CAMP) program, which encourages minority participation in science, mathematics, engineering, and technology. He was also the principal investigator for the UCI Mathematics, Engineering, Science Achievement (MESA) program, an academic outreach, and enrichment program that supports educationally disadvantaged students in elementary, middle, and high schools so they can excel in math and science studies, and graduate with baccalaureate degrees in math and science-based fields.
Born in Athens, Greece, he graduated from the Eighth Gymnasium of Athens in 1959 and received his B.S., M.S., and Ph.D. from the University of Michigan at Ann Arbor in 1965, 1967, and 1968.
Professor Alexopoulos is interested in electromagnetic
theory, integrated microwave circuits, microstrip antennas and arrays,
multi-function antennas, non-reciprocal materials, numerical methods, and
percolation theory and applications. His research activities focus on the
modeling and design of three-dimensional integrated circuits and printed
antennas in multilayered materials, wireless communication antennas, and
systems. He also is studying interconnect problems in complex networks, novel
materials and smart structures in low observable systems, and computational
methods.
About the Host of Risk Roundup
Jayshree Pandya (née Bhatt), the founder and chief
executive officer of Risk
Group LLC(www.riskgroupllc.com) is working passionately to define a
new security-centric operating system for humanity. Her efforts towards
building a strategic security risk analytics platform are to equip the global
strategic security community with the tools and culture to collectively imagine
the strategic security risks to our future and to define and design a new
security-centric operating system for the future of humanity.
About Risk Roundup
Risk Roundup, a global initiative launched by Risk Group,
is a security risk reporting for risks emerging from existing and emerging
technologies, technology convergence, and transformation happening across
cyberspace, aquaspace, geospace, and space. Risk Roundup is released in both
audio (Podcast) and video (Webcast) format and is available for subscription at
(Risk Group Website, iTunes, Google
Play, Stitcher Radio, Android, and
Risk Group Professional Social Media).
About Risk Group
Risk Group LLC is a leading strategic security risk
analytics platform.
Copyright Risk Group LLC. All
Rights Reserved
The post Electromagnetic Fields and Health Risks appeared first on Risk Group.
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Emeritus Professor (Dr.) Nicolaos Alexopoulos, Electrical Engineering and Computer Science, UCI Samueli School of Engineering, from the University of California, Irvine, based in the USA; a member of the New York Academy of Sciences, an ISI Highly Cited Author in Computer Science with more than 270 professional journal and conference papers, a Fellow of the Institute of Electrical and Electronics Engineers (IEEE), and twice recipient of the IEEE Schelkunoff Best Journal Publication Award, currently Vice President at Broadcom Foundation participates in Risk Roundup to discuss Electro-Magnetic field and Health Risks.
Electromagnetic Fields and Health Risks
The proliferation of human-made electromagnetic fields (EMFs) and electromagnetic radiation (EMR) is creating more questions than answers. That is perhaps because there is a growing concern that the human-made electromagnetic field is biologically active and is probably at the root of the increasing concern for the human-made electromagnetic field.
According to a paper published in nature, the human-made
EMF is dangerous because of its role of polarization in
the biological activity of human-made Electromagnetic Fields (EMFs) /
Electromagnetic Radiation (EMR). That brings us to an important question:
- Why
are human-made EMFs/EMR polarized?Do we
sufficiently understand how the biologically active electric and magnetic
fields impact living beings at cellular levels?
5G
There is a growing concern that 5G is packed with higher energy radiation that delivers potential damaging effects on humans and other living beings. The fears about radiofrequency radiation that can damage DNA and lead to cancer; cause oxidative damage that can cause premature aging; disrupt cell metabolism, and potentially lead to other diseases through the generation of stress proteins needs to be properly understood and evaluated.
From what is known at this point, the main effect of radiofrequency electromagnetic fields is the heating of body tissues. So,
- What
does the low exposure to EMF do to humans or any other living things?Do we understand
how the EMFs react at the cellular level?Has
there been any study done of the electromagnetic field from an evolutionary
perspective?What
is the electromagnetic band that 5G uses? How does it react to the human
environment? Do we
understand the risks enough to go ahead with deployment of 5G?Are
there any dangers of 5G to the environment and planet?Do we need
EMP protection?
The time is now to discuss and debate the Health Risks of Electromagnetic Fields.
For more, please watch the Risk Roundup Webcast or hear the Risk Roundup Podcast
About The Guest
Nicolaos G. Alexopoulos joined the UC Irvine faculty in 1997 as engineering dean and professor in the Department of Electrical Engineering and Computer Science. Under his leadership, 61 faculty members joined the school, totaling 105, and student enrollment grew from 1,160 undergraduate and 340 graduate students in 1997-98 to 2,215 undergraduate and 893 graduate students in 2007-08. Overall research expenditures also increased from $7.7 million during 1997-98 to $21.9 million in 2006-07. The Samueli School added 14 endowed chairs, ten members of the National Academies, and rose in the U.S. News and World Report Best Graduate Schools rankings from 49th in 1997-98 to 37th in 2007-08.
From 1969-96, Alexopoulos served on the faculty of the Department of Electrical Engineering at UCLA, assuming the roles of associate dean of faculty affairs and chair of the department during his tenure. He is the author of more than 270 professional journal and conference papers, has served on the editorial boards of several professional journals, and has been the editor-in-chief of Electromagnetics. In 1985, he was elected Fellow of the Institute of Electrical and Electronics Engineers (IEEE), and he has received the IEEE Schelkunoff Best Journal Publication Award twice (1985 and 1998). Ten of his journal publications have been published in volumes of the most significant contributions in the field. He was named the “Engineer of the Year” in 2000 by the Orange County Section of IEEE and received the Engineering Educator Award by the Orange County Engineering Council in 2001.
In 2002, the American-Hellenic Council honored Alexopoulos
for his distinguished service and contributions to Hellenism and the
American-Hellenic community. He also received an honorary doctorate from the
National Technical University of Athens for contributions to education and
research in engineering electrodynamics and his public lectures on the “Genesis
and Destruction of the First Research University: The Museum/Library of
Alexandria,” in 2005.
Dr. Alexopoulos is a member of the New York Academy of
Sciences and an ISI Highly Cited Author in computer science. He received
the 2006 Orange County Engineering Council Award for Outstanding Contributions
to Engineering Education in Orange County and was elected to the National
Academy of Engineering in 2007 for “contributions to microwave circuits,
antennas, and structures for low observable technologies, and for contributions
in engineering education.” Dr. Alexopoulos was also recently honored with
the Forum for Corporate Directors Chairman’s Award at the 13th Annual Director
of the Year awards event, and the AeA Engineering the Future Lifetime
Achievement Award at the 2008 15th Annual High-Tech Innovation Awards Dinner.
Together with engineering faculty and colleagues,
Alexopoulos supported the creation of numerous school and campus advancements,
including the establishment of the National Fuel Cell Research Center in 1997,
the Integrated Nanosystems Research Facility in 1998, establishing the first
“named” school on the UCI campus in 1999, and the Center for Pervasive
Communications and Computing in 2000. He also initiated and supported the
establishment of UCI’s California Institute for Telecommunications and
Information Technology (Calit2) in 2000, as well as the development and launch
of a new Biomedical Engineering Department in 2002. In 2006, he led the
creation of a Center for Engineering Science in Design, as well as celebrated a
new program called “LifeChips.” In 2007, The Edwards Lifesciences Center
for Advanced Cardiovascular Technology was established with a $5 million gift
from Edwards Lifesciences Corporation.
Alexopoulos is the former principal investigator of the California Alliance for Minority Participation (CAMP) program, which encourages minority participation in science, mathematics, engineering, and technology. He was also the principal investigator for the UCI Mathematics, Engineering, Science Achievement (MESA) program, an academic outreach, and enrichment program that supports educationally disadvantaged students in elementary, middle, and high schools so they can excel in math and science studies, and graduate with baccalaureate degrees in math and science-based fields.
Born in Athens, Greece, he graduated from the Eighth Gymnasium of Athens in 1959 and received his B.S., M.S., and Ph.D. from the University of Michigan at Ann Arbor in 1965, 1967, and 1968.
Professor Alexopoulos is interested in electromagnetic
theory, integrated microwave circuits, microstrip antennas and arrays,
multi-function antennas, non-reciprocal materials, numerical methods, and
percolation theory and applications. His research activities focus on the
modeling and design of three-dimensional integrated circuits and printed
antennas in multilayered materials, wireless communication antennas, and
systems. He also is studying interconnect problems in complex networks, novel
materials and smart structures in low observable systems, and computational
methods.
About the Host of Risk Roundup
Jayshree Pandya (née Bhatt), the founder and chief
executive officer of Risk
Group LLC(www.riskgroupllc.com) is working passionately to define a
new security-centric operating system for humanity. Her efforts towards
building a strategic security risk analytics platform are to equip the global
strategic security community with the tools and culture to collectively imagine
the strategic security risks to our future and to define and design a new
security-centric operating system for the future of humanity.
About Risk Roundup
Risk Roundup, a global initiative launched by Risk Group,
is a security risk reporting for risks emerging from existing and emerging
technologies, technology convergence, and transformation happening across
cyberspace, aquaspace, geospace, and space. Risk Roundup is released in both
audio (Podcast) and video (Webcast) format and is available for subscription at
(Risk Group Website, iTunes, Google
Play, Stitcher Radio, Android, and
Risk Group Professional Social Media).
About Risk Group
Risk Group LLC is a leading strategic security risk
analytics platform.
Copyright Risk Group LLC. All
Rights Reserved
The post Electromagnetic Fields and Health Risks appeared first on Risk Group.