Neutral orbital altitude density effects on the international space station

One of the design requirements of the International Space Station (ISS) is that, each year, accelerations of 1 mu g cannot be exceeded at the ISS internal payload location for six periods of not less than 30 consecutive days. Although there are other causes, this study deals only with the accelerations caused by atmospheric drag. The critical ambient neutral density, computed using the Marshall engineering thermosphere model, required to produce accelerations of 1 mu g on the ISS, is estimated using an atmospheric-drag acceleration equation. Results show that the design requirements may be difficult to meet during periods of extremely high solar activity; the planned reboost and altitude strategies for the ISS may have to be revised to allow for the uncertainty in the prediction of neutral atmospheric density within the 100-day period established for orbital decay before reboost.