What does N-ROSS mean in METEOROLOGY
N-ROSS stands for Navy Remote Sensing Satellite which is a satellite system developed by the U.S. Navy that serves as an observation and tracking platform to support intelligence, surveillance, and reconnaissance operations from orbit. N-ROSS combines a suite of advanced sensors and payloads including electro-optical/infrared imagers, Synthetic Aperture Radars (SARs), Electronic Warfare (EW) systems and communications data links among others.
N-ROSS meaning in Meteorology in Academic & Science
N-ROSS mostly used in an acronym Meteorology in Category Academic & Science that means Navy Remote Sensing Satellite
Shorthand: N-ROSS,
Full Form: Navy Remote Sensing Satellite
For more information of "Navy Remote Sensing Satellite", see the section below.
Essential Questions and Answers on Navy Remote Sensing Satellite in "SCIENCE»METEOROLOGY"
What does the N-ROSS acronym stand for?
The acronym N-ROSS stands for "Navy Remote Sensing Satellite".
What types of systems does N-ROSS incorporate?
The N-ROSS system incorporates a suite of advanced sensors and payloads, such as electro-optical/infrared imagers, Synthetic Aperture Radars (SARs), Electronic Warfare (EW) systems and communications data links among others.
What is the purpose of the N-ROSS satellite system?
The main purpose of the N-ROSS satellite system is to provide intelligence, surveillance, and reconnaissance operations from orbit.
Who developed the N-ROSS satellite system?
The N-ROSS satellite system was developed by the U.S. Navy.
What other applications can be used with the N-ROSS satellite system?
In addition to intelligence gathering applications, the N-ROSS satellite system can also be used for communication relays, atmospheric research, navigation systems and many more purposes.
Final Words:
The Navy Remote Sensing Satellite (N-ROSS) is an important tool in providing real time observations and reconnaissance capabilities from orbit to support different kinds of military operations. Through its suite of advanced sensors and payloads, it has been successfully implemented in many areas from intelligence gathering to communication relays.