Rescue operations can be conducted at any time. Maneuvering propellant is minimal because no plane changes are required for rendezvous and servicing of satellites.
This geometrical convenience is also true for reusable transport vehicles, i.e., reentry will always bring the vehicle back to the equator.Ī number of on-orbit operations can be simplified when operating in equatorial orbits. If a planned launch window is missed, there is a one-day launch delay.Ī launch from an equatorial launch site to an equatorial space station can occur at any time because the launch site is always in the plane of the station.
SPACEPLAN CONTROLS WINDOWS
For example, all spacecraft that are sent to the ISS have very narrow launch windows because liftoff can only occur as the launch site passes through the plane of the ISS orbit. The use of an equatorial launch site would relieve certain constraints. Unfortunately, the use of inclined orbits imposes certain limitations on launch timing and orbital operations as compared to equatorial destinations. Without Russian participation the ISS orbit could have been inclined at 28.4 degrees, the latitude of the US launch site at Cape Canaveral. This orbital inclination was selected to accommodate Russian launch-site constraints while offering coverage of most populated areas. The ISS is in an orbit that is inclined 51.6 degrees away from the equator. In other words, their orbits are inclined relative to the equatorial plane.
All prior space stations have been flown in orbits that cover most of the populated Earth. A primary mission of the USSF is to protect space assets and maintain US space superiority.Įquatorial orbits for space stations have not previously been considered. There are already many adversarial operations in LEO and these seem to be intensifying. This huge spacecraft is over 20 years old and is used to provide an orbiting facility for studying the effects of spaceflight on the human body and for conducting many long-length scientific studies.īecause China, India, Russia and the US are planning other stations for the coming decades, space is already heavily contested by several spacefaring nations. Such vehicles could be equipped with docking ports to allow rendezvous and docking of other spacecraft for crew transfers and resupply activities.Ĭurrently, there is only one fully operational and permanently inhabited space station in LEO, the International Space Station (ISS). It is conceivable that one or more armed military space stations could be placed over the equator with crews that consist of USSF Guardians who operate a variety of onboard and ground-based weapons. Imagine a scenario in which the US Space Force (USSF) might want to control all LEO operations. Such a concept could represent the foundation for a space-control architecture. If some entity were to place an offensive/defensive system in equatorial orbit, this could potentially control all near-Earth space operations. This means that every satellite in every LEO constellation must cross the same plane twice per circuit around the Earth.
The underlying reason is that all LEO traffic must cross the equator within every 50-minute time interval. Thanks to the physics of orbital mechanics, the equatorial plane offers the potential to act as an access-control point. Is there an analogous strategic structure for access to space?įor low-Earth orbit (LEO) traffic there is such a geographic phenomenon. In terms of strategic importance, this geographic phenomenon provides a control point for all seagoing traffic between the Atlantic Ocean and the Mediterranean Sea. It is well known that the Straits of Gibraltar provide access to the Mediterranean Sea.