A lateral prediction and correction guidance method for Mars atmosphere entry section
A technology of prediction, correction, guidance and prediction and correction, applied in the field of deep space exploration, can solve problems such as lack of flexibility, and achieve the effect of flexible planning
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Embodiment 1
[0063] This embodiment discloses a lateral prediction and correction guidance method for the Mars atmosphere entry section, which is used to perform a lateral maneuver in the Mars atmosphere entry section. The lateral maneuver is the roll angle reversal maneuver, so as to save fuel Purpose. Including the following steps:
[0064] Use the dynamic model of the detector to perform numerical integration until the parachute opening condition is met (and the parachute dynamic pressure interval [q min ,q max ] and the parachute Mach number interval [Ma min , Ma max ]), calculate the parachute accuracy deviation s between the parachute opening time and the target position f , the specific implementation method is:
[0065] Step 1. Determine the longitudinal motion guidance instruction |σ|.
[0066] A Probe Considering the Effect of Mars' Rotation on Dimensionless Time The three-degree-of-freedom dimensionless entry dynamics model is
[0067]
[0068] Among them, s is the r...
Embodiment 2
[0106] This embodiment discloses a lateral prediction and correction guidance method for the Mars atmosphere entry section. For the radio navigation scheme of the Mars atmosphere entry section in the future, the aircraft flying over the corresponding considerable area will significantly improve the observability of the navigation system, thereby improving the navigation accuracy. Therefore, it is desirable that the trajectory of the aircraft over a considerable area be as long as possible. For the sake of simplicity, it is assumed here that the aircraft flies over the centroid of the observable area (in this embodiment, the coordinates of the centroid of the observable area are selected as (θ 1 ,φ 1 )=(-45.14°,-43.67°)), the trajectory of its flying over the observable area is the longest.
[0107] This embodiment includes the following steps:
[0108] Use the dynamic model of the detector to perform numerical integration until the parachute opening condition is met (and the...
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