Forwarded from Deleted Account
the scalar wave attack is working with your unique brain ID , collected with cellular phone network. database started in 1980.
Forwarded from Deleted Account
everyone got his unique brain RFID code frequency
SCALAR WAVE WEAPONS USES WGS SATELLITE SYSTEMS ———> The Wideband Global System (WGS) is currently operational
in the Pacific Ocean using WGS1 (175E). GBS traffic is
supported in that theater today using the Digital Video
Broadcast by Satellite (DVB-S) and operates using terminals
originally designed for operation using the UHF Follow-On
satellite (UFO8). These terminals can now operate over
WGS1 and UFO8. GBS is planned to migrate to the JIPM in
2010. The Joint IP Modem (JIPM) will use the second
generation DVB-S2 which represents a quantum leap in
capability over DVB-S in terms of its power and bandwidth
efficiency. Further the JIPM allows hub-spoke operation
between a control center at a Teleport and the remote
terminals equipped with a remote Modem.
This paper will address the data rate performance of GBS
terminals using the current DVB-S and the JIPM DVB-S2 over
WGS1 (175E), WGS2 (60E) and WGS3 (12W). First, a
reference link is defined based on the Next Generation Receive
Terminal (NGRT). Next data rates will be determined for the
reference link based on WGS measured WGS1 data. Finally
global availability maps will be determined for the reference
link when operating globally over WGS1, WGS2 and WGS3
using WGS Ka-band beams.
in the Pacific Ocean using WGS1 (175E). GBS traffic is
supported in that theater today using the Digital Video
Broadcast by Satellite (DVB-S) and operates using terminals
originally designed for operation using the UHF Follow-On
satellite (UFO8). These terminals can now operate over
WGS1 and UFO8. GBS is planned to migrate to the JIPM in
2010. The Joint IP Modem (JIPM) will use the second
generation DVB-S2 which represents a quantum leap in
capability over DVB-S in terms of its power and bandwidth
efficiency. Further the JIPM allows hub-spoke operation
between a control center at a Teleport and the remote
terminals equipped with a remote Modem.
This paper will address the data rate performance of GBS
terminals using the current DVB-S and the JIPM DVB-S2 over
WGS1 (175E), WGS2 (60E) and WGS3 (12W). First, a
reference link is defined based on the Next Generation Receive
Terminal (NGRT). Next data rates will be determined for the
reference link based on WGS measured WGS1 data. Finally
global availability maps will be determined for the reference
link when operating globally over WGS1, WGS2 and WGS3
using WGS Ka-band beams.