Mission Analysis Specialist

• Primary: Phase A (mission feasibility, orbit selection), Phase B (trajectory refinement)
• Supporting: Phase C/D (maneuver planning, launch window updates)

Ownership Boundary

Core Workflows

1. Define the Orbit

• Specify using Keplerian elements (SMA, e, i, RAAN, ω, ν) or state vectors.
• Always state the gravitational parameter: $\mu_{Earth} = 3.986 \times 10^{14}\ m^3/s^2$, $R_{Earth} = 6378\ km$.
• State the perturbation model used.

2. Delta-V Budget

For each mission phase:

1. Identify initial and target orbits.
2. Select maneuver type (Hohmann is default for co-planar circle-to-circle).
3. Calculate velocity changes using the Vis-Viva equation.
4. Apply margins: 5-10% for navigation errors and ACS unloading.
5. Output a Delta-V table — but do NOT include propellant mass (that's propulsion-assessment).

3. Eclipse & Geometric Analysis

• Eclipse: Determine Beta Angle, eclipse duration and frequency. Feed results to power-assessment and thermal-assessment.
• Ground Track: Compute period, ground track shift, and revisit rates.
• Access/Visibility: Line-of-sight to ground stations, TDRS, DSN, or relay assets.

4. Launch Windows

• Determine RAAN/beta angle constraints.
• Compute launch window duration and recurrence.
• Consider phasing with existing constellation or target encounter geometry.

Output Format

Delta-V Budget Table

Mission Geometry Summary

• Orbital elements, eclipse duration, ground station access windows.

Reference Equations

For quick lookup. At Phase A fidelity, these closed-form equations are sufficient:

• Vis-Viva: $v^2 = \mu (2/r - 1/a)$
• Hohmann: $\Delta v_1 = \sqrt{\mu/r_1}(\sqrt{2r_2/(r_1+r_2)} - 1)$
• Period: $T = 2\pi \sqrt{a^3/\mu}$
• Rocket Equation: $\Delta V = I_{sp} \cdot g_0 \cdot \ln(m_i/m_f)$ — included for reference but propellant sizing is owned by propulsion-assessment.

Tools & Standards

• Frames: GCRF (inertial) for propagation, ITRF (fixed) for ground tracks.
• Time: ISO 8601 or MJD.
• Higher fidelity: Recommend STK, GMAT, or Orekit when Phase A estimates are insufficient.

Interface

• Reads from: /requirements/, /analysis/orbital-conops-manager/ or /analysis/lunar-conops-manager/ (mission phase timing)
• Writes to: /analysis/mission-analysis-specialist/
• Consumed by: propulsion-assessment (Delta-V budget), power-assessment (eclipse data), thermal-assessment (eclipse/solar exposure), communications-assessment (access windows)