Mega-constellations are taking center stage in a pivotal time for high-speed satcom, but business-case and architectural facets will drive the multi-orbit, multi-band satellite paradigm. It is thus worth diving into the facts using NSR’s Non-GEO Constellations Analysis Toolkit 2.0 (NCAT2) to infer how LEOs may best interplay with well-established GEOs. Today’s fast-paced environment brings unprecedented.
Satcom constellations beaming tens of Tbps are impacting the space sector and the broader telecom industry. Yet, when running demand-supply simulations on fixed-broadband and mobility datasets using NSR’s Non-GEO Constellations Analysis Toolkit 2.0 (NCAT2), it becomes clear that, while the amount of IP bandwidth produced is enormous, not all is usable or sufficient. Two key.
NSR launched Version 2.0 of its industry leading Non-GEO Constellations Analysis Toolkit 2.0 (NCAT2), expanding its comprehensive analytical toolset benchmarking LEO and MEO constellations. As thousands of LEO and MEO satellites beam tens of Terabits per second, they transform not only the space sector, but the adjacent telecommunications industry, making it vital for strategic decision makers of.
NSR launched Version 2.0 of its industry leading Non-GEO Constellations Analysis Toolkit 2.0 (NCAT2), expanding its comprehensive analytical toolset benchmarking LEO and MEO constellations. Version 2.0 doubles input and output data tables to 56 sub-constellations and increases available tools to 15, including a granular assessment of fixed-data and mobility applications.
Northern Sky Research (NSR) has released version 2.0 of its proprietary Non-GEO Constellations Analysis Toolkit (NCAT). The update adds to NSR’s comprehensive analytical tools for benchmarking low Earth orbit (LEO) and medium Earth orbit (MEO) satellite constellations. A multi-faceted toolkit, NCAT includes analytical models, input and output data tables, comparison charts, maps with satellites, orbital routes, footprints per.