Difference between revisions of "JPL Robotics Meeting Notes"
Line 15: | Line 15: | ||
* employ predictive analytics to anticipate and mitigate potential risks. | * employ predictive analytics to anticipate and mitigate potential risks. | ||
* allowing for dynamic re-planning and risk management. | * allowing for dynamic re-planning and risk management. | ||
− | + | [[File:Screenshot13-16-39.png|400px|thumb|none]] | |
=== Advanced sensor integration === | === Advanced sensor integration === | ||
* high-resolution cameras and spectrometers. | * high-resolution cameras and spectrometers. |
Revision as of 20:17, 20 May 2024
User:vrtnis' notes from meeting with JPL robotics head of robotics team (EELS and Rover)
Contents
Mars rover autonomy
- combine approximate kinematic settling with a dual-cost path planner to navigate safely in unstructured environments.
- develop multi-agent capabilities to significantly enhance performance and safety of autonomous operations on Mars.
- engineer the autonomy system to efficiently handle Mars' unpredictable terrain, improving mission success rates.
- incorporate mechanisms for self-diagnosis and repair to ensure long-term functionality with minimal Earth-based support.
Risk-aware planning
- utilize Boole's inequality for risk allocation.
- enhancing decision-making under uncertainty.
- employ predictive analytics to anticipate and mitigate potential risks.
- allowing for dynamic re-planning and risk management.
Advanced sensor integration
- high-resolution cameras and spectrometers.
- integrate sensors for comprehensive environmental data.
- using ground-penetrating radar (GPR).
Energy
- optimize energy consumption.
- utilize a combination of solar panels.
- gather power from the environment, such as thermal gradients and mechanical movements.
- utilize LIDAR
- optimal path planning,.
- integrate real-time obstacle detection