End to End AI Satellite Operations from LEOP to Extended Missions IOPS

IOPS provides industry‑approved, AI‑based satellite operations designed to support a wide range of missions across Low Earth Orbit (LEO), Geostationary Orbit (GEO), and Lunar orbit. With proven operational stability and experienced engineers, IOPS delivers end‑to‑end services from LEOP (Launch and Early Orbit Phase) to routine and extended operations.

 

End‑to‑End Satellite Operations Services:

Launch and Early Orbit Phase (LEOP)

The LEOP phase is one of the most critical stages of any satellite mission. IOPS executes LEOP using well‑defined, industry‑approved procedures that ensure rapid stabilization of the spacecraft after launch. Services include:

·         Initial spacecraft acquisition and tracking.

·         Early orbit determination and control.

·         Deployment and subsystem activation.

·         Real‑time anomaly detection and response.

Their experienced satellite operations engineers ensure a smooth transition from launch to nominal operations.

 

Low Earth Orbit (LEO) Satellite Operations

LEO missions require high‑frequency operations and fast decision‑making due to shorter orbital periods. IOPS delivers optimized LEO satellite operation services for single satellites and large constellations:

·         Continuous spacecraft health monitoring.

·         Orbit control and collision avoidance support.

·         Payload scheduling and mission optimization.

·         AI‑based anomaly detection and predictive analysis.

These capabilities support Earth observation, communications, and scientific missions with high operational efficiency.

 

Geostationary Orbit (GEO) Satellite Operations

GEO satellite operations demand long‑term reliability and precise station‑keeping. IOPS provides stable and secure operations designed to maximize satellite lifespan:

·         Station‑keeping and attitude control.

·         Power and thermal subsystem management.

·         Payload performance monitoring.

·         End‑of‑life planning and disposal operations.

Their GEO operations services help operators maintain continuous service availability and protect valuable space assets.

 

Lunar Orbiter Operations

As lunar exploration expands, specialized lunar orbiter operation services are required. IOPS combines deep‑space mission experience with AI‑assisted operational technologies to support lunar missions:

·         Deep‑space navigation and trajectory management.

·         Long‑distance communications coordination.

·         Autonomous fault detection and recovery.

·         Mission planning for scientific and exploration objectives.

These capabilities enable reliable and sustainable operations beyond Earth orbit.

 

IOPS core satellite operations products—MCS (Mission Control Subsystem), MPS (Mission Planning Subsystem), and FDS (Flight Dynamics Subsystem)—work together to enable real‑time control, intelligent planning, and precise flight dynamics analysis.

Ø  MCS – Mission Control Subsystem

The Mission Control Subsystem (MCS) is the operational backbone of satellite missions, providing real‑time command and control capabilities. MCS ensures stable and secure interaction between ground systems and spacecraft.

Ø  MPS – Mission Planning Subsystem

The Mission Planning Subsystem (MPS) supports efficient and optimized mission execution by translating mission objectives into executable operational plans.

Ø  FDS – Flight Dynamics Subsystem

The Flight Dynamics Subsystem (FDS) provides precise orbital analysis and prediction capabilities essential for safe and accurate satellite operations.

 

If you are looking for AI based satellite operation services, you can find them at IOPS. 

 

Click here if you are interested in IOPS products. 

 

View more: End‑to‑End AI Satellite Operations from LEOP to Extended Missions IOPS