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Solutions
Our smart mission ecosystem combines state-of-the-art hardware, software, and algorithms to deliver reliable technology and advanced solutions for space missions.
Hardware
Data Processing Units for autonomous satellite analysis, minimizing data transmission and increasing mission efficiency.
Software
Satellite software for real-time control, on-board processing, and autonomous decisions, enhancing mission success.
Algorithms
AI algorithms for satellite telemetry, Earth observation, and anomaly detection, enabling autonomous operations.
Real-Time Data Processing
Processes satellite data in real-time using advanced technology, ensuring efficient Earth observation and optimized mission performance in-orbit.
In-Orbit Flexibility
Enables in-orbit reconfigurations and updates, allowing missions to seamlessly adapt to new objectives and conditions without interruptions.
Autonomous Decision-Making
Utilizes AI-driven algorithms for autonomous operations, improving reliability with enhanced anomaly detection and real-time data analysis.
Holistic Mission Integration
Combines all mission elements into a cohesive ecosystem, streamlining development, testing, and operations for seamless, cost-effective satellite missions.
About SML
Smart Mission Lprovides remote access to KP Labs' data processing units (DPUs), allowing for early-stage testing and validation of mission technology. This platform supports efficient algorithm development and hardware testing before committing to a physical purchase.
Remote Access to DPUs
Access and test KP Labs' data processing units remotely, validating technology early in the mission phase.
Test Multiple Configurations
Evaluate different hardware setups to find the best fit for mission requirements, without physical hardware.
Fast and Efficient
Reduce testing time from months to minutes, speeding up mission development.
Cost-Effective Development
Develop algorithms and select hardware in parallel, minimizing costs and investment risks.
Customizable Solutions
Configure hardware according to specific mission needs, ensuring optimized performance before finalizing the selection.