seen from Saudi Arabia
seen from United States
seen from China
seen from United States

seen from United States

seen from Malaysia

seen from China
seen from Thailand

seen from United States
seen from Thailand

seen from Portugal
seen from Thailand
seen from Italy

seen from Switzerland
seen from Saudi Arabia
seen from Switzerland

seen from Switzerland

seen from Switzerland
seen from Saudi Arabia

seen from Malaysia
The Sea-Based X-Band Radar (SBX-1) is a floating, self-propelled, mobile radar station designed to operate in high winds and heavy seas. It is part of the U.S. Defense Department Ballistic Missile Defense System. The radar is mounted on a fifth generation CS-50 twin-hulled semi-submersible drilling rig.
The radar has been described by Lt. Gen Trey Obering (director of MDA) as being able to track an object the size of a baseball over San Francisco in California from the Chesapeake Bay in Virginia, approximately 2,900 miles (4,700 km) away. The radar will guide land-based missiles from Alaska and California, as well as in-theatre assets.
The SBX failed during a flight test on January 31, 2010, designated FTG-06. The test was a simulation of a North Korean or Iranian missile launch. The test failure arose from two factors, the first being that algorithms in the SBX radar software which are designed to filter out extraneous information from the target scene were left disengaged for the test, and the second was a mechanical failure in a thruster on the kill vehicle.
In recent years since its deployment the SBX-1 has been the target of controversy and accusations on YouTube and blogs in particular as a device used for initiating earthquakes and controlling the weather. One example cites the device emits microwaves which excite water molecules redirecting atmospheric moisture to other parts of the globe. Others in local communities claim the radar interferes with radio and television signals and Wi-Fi in their city when brought to port for repair. SBX-1 is often very intimidating to locals given it's massive size when brought to port.