antennas designed to deceive the public
TRANSCRIPT
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March 2014
Antennas designed to deceive the public
Hello,
The following two pages contain sections of two papers published in prestigious professional
journals. Both papers include sections presenting innovative and sophisticated methods for
concealing of radio antennas. Not by hiding those behind rooftop objects the old way but
rather by developing new hi-tech antennas and by modifications of base stations.
The ideas, inventions and prototypes presented are intended to deceive the public by hiding
the very existence of the antennas as explained very clearly in the papers. Even so the
authors and their institutions publish their intent to deceive with no shame. The papers omit to
mention that the radio-frequency radiation emitted by the antennas is a possible carcinogen
for humans as declared by IARC in 2011.
Furthermore, each paper in those best quality journals passed rigorous peer review by experts
before publication. The reviewers failed to reject the papers in spite of the undeclared health
risk caused by hiding transmitting antennas near people.
The papers imply that the public worldwide is aware of the health risks of radio frequencyradiation from antennas placed too close to humans and demands risk reduction and this
stresses the industry. The institutions involved in the published papers seem proud of their
attempt to relieve this stress by ruthlessly deceiving the public.
The action of the authors and the reviewers seem a breach of the IEEE code of ethics,
clauses 1 and 9 , available here:
http://www.ieee.org/about/corporate/governance/p7-8.html
The next pages are readable by anyone; they contain just the paper titles and the short
sections relevant to this aspect. The significant few sentences are highlighted to make reading
easy. Have a look.
Best regards,
Michael Peleg
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VI. TRANSPARENT DRAs
Glass has been widely used in our daily life, such as windows, windshield, containers, decorations, etc.
It can also be used as a substrate for a patch antenna [74], the antennas will blend in with the street
and traffic lights without affecting the citys appearance. This is especially important when there are
psychological concerns about radiation.
VII. DECORATION DRAsCrystal and glass wares have been widely used at homes and offices for decorating purposesThis is
useful when standalone or visible antennas are not wanted. The latter is a practical concern especially
when the antenna is in close proximity to people.
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INVISIBLE BASE STATIONS WITHIRREGULAR ANTENNA ARRAYS
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IRREGULAR ANTENNA ARRAYS
Although LSAS elegantly addresses the capacity and power consumption challenges, the physical size
of an LSAS BS is of concern. Commercial deployment of BSs is already facing resistance from both the
public and commercial property owners regarding the aesthetics and potential/perceived health issues
due to exposure to electromagnetic waves. The much larger physical footprints of LSAS BSs will notonly bring significant tower construction challenges but also lead to greater confrontation. By
integrating the antenna elements into the environment, the BSs can be made virtually invisible. Instead
of constructing fake trees, which are often eyesores, multiple active elements can be built in the form of
tiles. By separating the single LSAS panel into multiple tiles, the LSAS can be flexibly deployed in an
irregular fashion as part of the building facade or signage, and thus blend into the environment.
Irregular antenna deployment in a practical environment requires different system design and adaptive
signal processing algorithms.