03-03-2012, 03:29 PM
Tony of Ozarks, sent the following conglomeration related to the Advanced Modular Incoherent Scatter Radar:
The Advanced Modular Incoherent Scatter Radar (AMISR) is a fairly recent development, and employed in the global scientific space takeover program for the purposes of “owning the weather.”
I would like to draw your attention to information regarding the global atmospheric takeover within the scientific community, in particular that from the SRI (Stanford Science Foundation) within the NSF (National Science Foundation).
- This advancement is allowing the ‘HAARP’ program to continue under a new name, on a global scale.
- Its functions can be related to Bernard Eastlund’s statements regarding HAARP’s abilities.
- The world’s atmosphere/ weather patterns are being exploited.
- Essentially, AMISR makes the ‘HAARP program’ mobile, modular, and global to further supposedly covert agendas.
Links to documents on AMISR (Advanced modular incoherent scatter radar):
http://cedarweb.hao.ucar.edu/workshop/tu...lley05.pdf
AMISR is a modular, mobile radar facility that will be used by scientists and students from around the world to conduct studies of the upper atmosphere and to observe space weather events.
SRI International, under a grant from the National Science Foundation, is leading a collaborative effort in the development of AMISR, whose novel modular configuration is designed to allow relative ease of relocation for studying upper atmospheric activity around the globe. Remote operation and electronic beam steering will allow researchers operate and position the radar beam instantaneously to accurately measure rapidly changing space weather events.
When completed, AMISR will consist of three separate radar faces, with each face comprised of 128 building block-like panels over a 30 x 30 meter roughly square surface. AMISR is being constructed in two stages: the first face in Poker Flat, Alaska, has been completed and is already being used for scientific investigations. The remaining two faces are under construction in Resolute Bay, Nunavut, Canada. Future AMISR locations will be determined by a scientific advisory panel. Since each face of AMISR functions independently, AMISR can be deployed in up to three separate locations at the same time.
http://isr.sri.com/iono/amisr/
SRI International, under a grant from the National Science Foundation, is leading a collaborative effort in the development of AMISR, whose novel modular configuration is designed to allow relative ease of relocation for studying upper atmospheric activity around the globe. It will allow researchers to operate and position the radar beam instantaneously, to accurately measure rapidly changing space weather events.
http://www.haystack.mit.edu/atm/arrays/amisr/index.html
…
The Advanced Modular Incoherent Scatter Radar (AMISR) is a new ISR that employs modular solid-state and phased-array technologies and will yield measurements of the upper atmosphere and ionosphere with unprecedented versatility and power. AMISR is being deployed at Poker Flat Research Range (PFRR), Chatanika, Alaska (65°N, 147°W) to investigate auroral processes. The AMISR facility establishes a new state-of-the-art for IS radar design by implementing fully electronic beam steering with a phased array of 4096 UHF transceivers. This beam pointing capability is available on a pulse-by-pulse basis.
This installation is coordinated by SRI, International.
http://wikimapia.org/4980736/The-Advance...adar-AMISR
…
WPI/SRI project report
http://m.wpi.edu/Pubs/E-project/Availabl...Report.pdf
…
AMISR History
http://www.noao.edu/nsf/presentations/FA...20talk.pdf
…
AMISR Funding
http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=13546
http://www.nsf.gov/awardsearch/progSearc...ch#results
…
Advanced Modular Incoherent Scatter Radar (AMISR) Graduate Studies: High-Latitude E-region Electrodynamics
http://www.sciencestorm.com/award/0538926.html
…
http://books.google.com/books?id=XV9JvFf...=html_text
…
AMISR and the PFISR / RISR sites
http://meetingorganizer.copernicus.org/E...-12001.pdf
…
The “Argentine Ionospheric Radar Experimental Station” (AIRES) project was born in 2005, with the long term objective of deploying the first “global ionosphere plasma laboratory” exploiting the geomagnetic conjugation between Arecibo (Puerto Rico) and La Plata (Argentina). In those days, the “Advanced Modular Incoherent Scatter Radar” (AMISR) –a state-of-the-art incoherent scatter radar developed under the sponsorship of the US NSF–, become operational and demonstrated its potentiality for high resolution 3-D remote sensing of Mesosphere, Thermosphere and Ionosphere. AIRES was founded on the basis of deploying AMISR at the Arecibo geomagnetic conjugate point. The road map to AIRES was traced during a workshop convened jointly by Argentina and US scientists. It was held at the Arecibo Observatory, in 2006, and was attended by 50 participants. The workshop report stated three major action items: 1) formalized collaborations between Argentine and US scientific Institutions and founding agencies; 2) deploy smaller instrumentation while developing strong collaborative ties; 3) fully deployment of AIRES. Particular emphasis was paid to capacity building activities associated to AIRES, in both, technology and science fields. Accomplishing the action items sated in the workshop, a broad consensus was constructed witting the US and Argentina Upper Atmosphere community. In April 2009, the AIRES project was presented in an ad-hoc meeting between US NSF and Argentina MINCyT and CONICET authorities. The Instituto Argentino de Radioastronomía (IAR) was identified to deploy AMISR. A site survey conducted there demonstrated the suitability of this site and identified the main requirements to deploy AMISR: improving power supply and access infrastructure, and build up the AMISR platform. A variety of small instruments dedicated to upper atmospheric studies are being deployed in Argentina, involving a budget of U$S 2.5 millions mostly afforded by the US NSF. In parallel, a variety of capacity building activities are being performed, including interchange of US and Argentina students and the organization of the “School in Upper Atmospheric Dynamics and Chemistry” that will be held next October, in San Juan (Argentina), under the sponsorship of the Pan American Advanced Study Institutes (PASI) and CONICET. 30 students and 15 lecturers from US and Latin America will be fully granted by the sponsor institutions. Besides, UNLP initiated the process to establish an Atmospheric Science Curriculum for under- and post-graduated level. During its five years life, AIRES proved to be very synergetic for developing research and capacity building activities involving scientists, engineers and students from a number of US and Argentina institutions. The deployment of AMISR at IAR will provide the unique opportunity to establish the first global ionosphere plasma laboratory. The geomagnetic conjugation between Arecibo and La Plata will open unprecedented opportunities for understanding global-scale energy transport processes in the upper atmosphere. AIRES could be operational at IAR as early of 2013 (the US NSF has already approved U$S 2.5 millions for constructing the initial phases). Several Argentina institutions have committed their efforts to make this dream reality. Next efforts must be devoted to extract the maximum benefit from this initiative regarding science, technology and capacity building in Argentina. Doors to board AIRES are open and Argentina scientists and institutions are encourage to make part of this great challenge.
http://www.iafe.uba.ar/docs/coloquios.html
…
A Bayesian approach to electric field and E-region neutral wind estimation with the Poker Flat Advanced Modular Incoherent Scatter Radar
http://www.agu.org/journals/ABS/2008/2007RS003805.shtml
…
http://www.sri.com/news/releases/08-26-03.html
…
http://www.thefreelibrary.com/SRI-Design...0135001069
…
http://www.usask.ca/physics/isas/report08.pdf
…
MUIR radar is suitable for probing naturally occurring space plasma processes and not limited to HF heater-induced effects
Large plasma sheets (also known as sheet-like filaments) can be excited by HF O-mode and X-mode heater waves via thermal filamentation instability.
http://dspace.mit.edu/handle/1721.1/53280
…
http://dspace.mit.edu/bitstream/handle/1...sequence=1
http://chemtrailsnorthnz.wordpress.com/2...ter-radar/
The Advanced Modular Incoherent Scatter Radar (AMISR) is a fairly recent development, and employed in the global scientific space takeover program for the purposes of “owning the weather.”
I would like to draw your attention to information regarding the global atmospheric takeover within the scientific community, in particular that from the SRI (Stanford Science Foundation) within the NSF (National Science Foundation).
- This advancement is allowing the ‘HAARP’ program to continue under a new name, on a global scale.
- Its functions can be related to Bernard Eastlund’s statements regarding HAARP’s abilities.
- The world’s atmosphere/ weather patterns are being exploited.
- Essentially, AMISR makes the ‘HAARP program’ mobile, modular, and global to further supposedly covert agendas.
Links to documents on AMISR (Advanced modular incoherent scatter radar):
http://cedarweb.hao.ucar.edu/workshop/tu...lley05.pdf
AMISR is a modular, mobile radar facility that will be used by scientists and students from around the world to conduct studies of the upper atmosphere and to observe space weather events.
SRI International, under a grant from the National Science Foundation, is leading a collaborative effort in the development of AMISR, whose novel modular configuration is designed to allow relative ease of relocation for studying upper atmospheric activity around the globe. Remote operation and electronic beam steering will allow researchers operate and position the radar beam instantaneously to accurately measure rapidly changing space weather events.
When completed, AMISR will consist of three separate radar faces, with each face comprised of 128 building block-like panels over a 30 x 30 meter roughly square surface. AMISR is being constructed in two stages: the first face in Poker Flat, Alaska, has been completed and is already being used for scientific investigations. The remaining two faces are under construction in Resolute Bay, Nunavut, Canada. Future AMISR locations will be determined by a scientific advisory panel. Since each face of AMISR functions independently, AMISR can be deployed in up to three separate locations at the same time.
http://isr.sri.com/iono/amisr/
SRI International, under a grant from the National Science Foundation, is leading a collaborative effort in the development of AMISR, whose novel modular configuration is designed to allow relative ease of relocation for studying upper atmospheric activity around the globe. It will allow researchers to operate and position the radar beam instantaneously, to accurately measure rapidly changing space weather events.
http://www.haystack.mit.edu/atm/arrays/amisr/index.html
…
The Advanced Modular Incoherent Scatter Radar (AMISR) is a new ISR that employs modular solid-state and phased-array technologies and will yield measurements of the upper atmosphere and ionosphere with unprecedented versatility and power. AMISR is being deployed at Poker Flat Research Range (PFRR), Chatanika, Alaska (65°N, 147°W) to investigate auroral processes. The AMISR facility establishes a new state-of-the-art for IS radar design by implementing fully electronic beam steering with a phased array of 4096 UHF transceivers. This beam pointing capability is available on a pulse-by-pulse basis.
This installation is coordinated by SRI, International.
http://wikimapia.org/4980736/The-Advance...adar-AMISR
…
WPI/SRI project report
http://m.wpi.edu/Pubs/E-project/Availabl...Report.pdf
…
AMISR History
http://www.noao.edu/nsf/presentations/FA...20talk.pdf
…
AMISR Funding
http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=13546
http://www.nsf.gov/awardsearch/progSearc...ch#results
…
Advanced Modular Incoherent Scatter Radar (AMISR) Graduate Studies: High-Latitude E-region Electrodynamics
http://www.sciencestorm.com/award/0538926.html
…
http://books.google.com/books?id=XV9JvFf...=html_text
…
AMISR and the PFISR / RISR sites
http://meetingorganizer.copernicus.org/E...-12001.pdf
…
The “Argentine Ionospheric Radar Experimental Station” (AIRES) project was born in 2005, with the long term objective of deploying the first “global ionosphere plasma laboratory” exploiting the geomagnetic conjugation between Arecibo (Puerto Rico) and La Plata (Argentina). In those days, the “Advanced Modular Incoherent Scatter Radar” (AMISR) –a state-of-the-art incoherent scatter radar developed under the sponsorship of the US NSF–, become operational and demonstrated its potentiality for high resolution 3-D remote sensing of Mesosphere, Thermosphere and Ionosphere. AIRES was founded on the basis of deploying AMISR at the Arecibo geomagnetic conjugate point. The road map to AIRES was traced during a workshop convened jointly by Argentina and US scientists. It was held at the Arecibo Observatory, in 2006, and was attended by 50 participants. The workshop report stated three major action items: 1) formalized collaborations between Argentine and US scientific Institutions and founding agencies; 2) deploy smaller instrumentation while developing strong collaborative ties; 3) fully deployment of AIRES. Particular emphasis was paid to capacity building activities associated to AIRES, in both, technology and science fields. Accomplishing the action items sated in the workshop, a broad consensus was constructed witting the US and Argentina Upper Atmosphere community. In April 2009, the AIRES project was presented in an ad-hoc meeting between US NSF and Argentina MINCyT and CONICET authorities. The Instituto Argentino de Radioastronomía (IAR) was identified to deploy AMISR. A site survey conducted there demonstrated the suitability of this site and identified the main requirements to deploy AMISR: improving power supply and access infrastructure, and build up the AMISR platform. A variety of small instruments dedicated to upper atmospheric studies are being deployed in Argentina, involving a budget of U$S 2.5 millions mostly afforded by the US NSF. In parallel, a variety of capacity building activities are being performed, including interchange of US and Argentina students and the organization of the “School in Upper Atmospheric Dynamics and Chemistry” that will be held next October, in San Juan (Argentina), under the sponsorship of the Pan American Advanced Study Institutes (PASI) and CONICET. 30 students and 15 lecturers from US and Latin America will be fully granted by the sponsor institutions. Besides, UNLP initiated the process to establish an Atmospheric Science Curriculum for under- and post-graduated level. During its five years life, AIRES proved to be very synergetic for developing research and capacity building activities involving scientists, engineers and students from a number of US and Argentina institutions. The deployment of AMISR at IAR will provide the unique opportunity to establish the first global ionosphere plasma laboratory. The geomagnetic conjugation between Arecibo and La Plata will open unprecedented opportunities for understanding global-scale energy transport processes in the upper atmosphere. AIRES could be operational at IAR as early of 2013 (the US NSF has already approved U$S 2.5 millions for constructing the initial phases). Several Argentina institutions have committed their efforts to make this dream reality. Next efforts must be devoted to extract the maximum benefit from this initiative regarding science, technology and capacity building in Argentina. Doors to board AIRES are open and Argentina scientists and institutions are encourage to make part of this great challenge.
http://www.iafe.uba.ar/docs/coloquios.html
…
A Bayesian approach to electric field and E-region neutral wind estimation with the Poker Flat Advanced Modular Incoherent Scatter Radar
http://www.agu.org/journals/ABS/2008/2007RS003805.shtml
…
http://www.sri.com/news/releases/08-26-03.html
…
http://www.thefreelibrary.com/SRI-Design...0135001069
…
http://www.usask.ca/physics/isas/report08.pdf
…
MUIR radar is suitable for probing naturally occurring space plasma processes and not limited to HF heater-induced effects
Large plasma sheets (also known as sheet-like filaments) can be excited by HF O-mode and X-mode heater waves via thermal filamentation instability.
http://dspace.mit.edu/handle/1721.1/53280
…
http://dspace.mit.edu/bitstream/handle/1...sequence=1
http://chemtrailsnorthnz.wordpress.com/2...ter-radar/