IOPS25-26

As satellite missions generate increasing volumes of high‑resolution data, efficient data reception and processing platforms are essential for transforming raw satellite signals into valuable information. IOPS provides a Controlled Web Platform designed to support secure, reliable, and scalable satellite data operations. Through its advanced product suite— IRS (Image Receiving Subsystem) , ACS (Antenna Control Subsystem) , and IPS (Image Processing Subsystem) —IOPS delivers end‑to‑end capabilities for satellite data reception, antenna control, and image processing. These solutions are part of IOPS’s data reception and processing products: IRS – Image Receiving Subsystem The Image Receiving Subsystem (IRS) is responsible for the reliable acquisition and management of satellite imagery data. IRS ensures that mission data is received according to schedule and prepared for downstream processing and analysis. Key Functions of IRS Scheduled satellite data reception an...

IOPS satellite operations products—MCS (Mission Control Subsystem), MPS (Mission Planning Subsystem), and FDS (Flight Dynamics Subsystem)—form an integrated ground system architecture designed to support modern space missions with high reliability and efficiency. Working together, these subsystems enable real-time satellite control, intelligent mission planning, and precise flight dynamics analysis, ensuring seamless operations throughout the entire mission lifecycle.   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.   Key Functions of MCS ·          Real‑time telemetry acquisition and monitoring ·          Secure telecommand generation and transmission ·    ...

IOPS provides end‑to‑end services for the establishment and operation of satellite control centers, integrating AI technologies, proven operational processes, and advanced ground systems. Their capabilities span AI&T, satellite operations, data reception and processing, and AI‑based satellite operation and application, as presented in their core services: AI&T (Assembly, Integration, and Test) Support A successful satellite control center begins with close coordination during AI&T (Assembly, Integration, and Test). IOPS supports mission readiness by aligning ground systems with spacecraft design and verification activities. AI&T Capabilities Ground system interface definition and validation. Operational procedure development and testing. End‑to‑end mission simulations. Operations readiness reviews. By integrating control center systems early in the AI&T phase, IOPSminimizes operational risk and ensures a smooth transition from testing to launch...

IOPS provides industry ‑ approved, AI ‑ based satellite operation s 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. ·      ...

Effective satellite operation software is crucial for managing and optimizing modern space missions, especially for satellite constellation s where complexity and data volume increase significantly. IOPS delivers robust satellite operation software designed to support critical functions such as orbit determination, maneuver planning, and collision avoidance, ensuring mission safety and operational success across large-scale constellations. At the core of this software is the FDS (Flight Dynamics Subsystem) , a powerful module responsible for accurate satellite orbit prediction and determination. FDS continuously analyzes orbital data to provide precise information on satellite position and trajectory, which is essential for maintaining the health and performance of individual satellites within a constellation. This capability enables operators to plan and execute orbital maneuvers with confidence, keeping each satellite on its intended path. The satellite operation software’s Flig...

IOPS provides advanced mission control solutions through a high-performance satellite control system designed to support real-time operations and long-term mission success. Built on many years of hands-on operational experience, the IOPS mission control platform enables accurate monitoring, precise command execution, and confident decision-making throughout the satellite mission lifecycle. The IOPS satellite control system supports real-time telemetry and telecommand transmissions, allowing operators to continuously monitor satellite health and system performance. Real-time data acquisition and command execution ensure rapid response to mission-critical situations, enhancing overall mission safety and operational reliability. Developed based on extensive operational know-how, the IOPS mission control platform features a user-friendly interface that simplifies complex satellite operations. Intuitive workflows and efficient system design reduce operator workload and training time ...

Modern space and surveillance missions require high reliability, scalability, and intelligence. IOPS delivers automated operations for next-generation ground station systems, enabling efficient data processing, real-time detection, and intelligent decision-making. By integrating AI-driven automation, IOPS enhances mission responsiveness while reducing manual operational complexity. IMDP (IOPS Multi-purpose Detection Package) IMDP (IOPS Multi-purpose Detection Package) is an advanced AI solution designed to support automated operations within ground station system s. IMDP focuses on accurate detection, classification, and analysis of objects using multi-sensor data, enabling operators to respond faster and more effectively in complex environments. Small Object Detection System Using EO and SAR IMDP includes a high-performance small object detection system capable of detecting and classifying small-scale targets with high precision. By leveraging both EO (Electro-Optic...

Modern space missions demand efficiency, autonomy, and reliability. IOPS delivers advanced AI-based satellite operation solutions that transform traditional satellite operation by enabling intelligent decision-making, real-time automation and predictive analytics across satellite systems. By integrating artificial intelligence into mission control, IOPS helps satellite operators significantly reduce operational risks, optimize resources, and enhance overall mission performance. IAIP (IOPS Automation and Intelligence Package) IAIP (IOPS Automation and Intelligence Package) is a next-generation solution designed to fully automate and intelligently manage satellite operation s. IAIP combines advanced AI algorithms with operational expertise to deliver a highly autonomous satellite operation environment. Key Capabilities of IAIP AI-based satellite operation automation. Intelligent monitoring and control of satellite systems. Reduced operational workload and cost. Enhance...