20240039790. RADIATION TOLERANT SOFTWARE DEFINED RADIO DEVICE FOR MULTI-BAND RADIO APPLICATIONS IN SPACE SYSTEMS simplified abstract (Deutsches Zentrum für Luft- und Raumfahrt e.V.)
RADIATION TOLERANT SOFTWARE DEFINED RADIO DEVICE FOR MULTI-BAND RADIO APPLICATIONS IN SPACE SYSTEMS
Organization Name
Deutsches Zentrum für Luft- und Raumfahrt e.V.
Inventor(s)
RADIATION TOLERANT SOFTWARE DEFINED RADIO DEVICE FOR MULTI-BAND RADIO APPLICATIONS IN SPACE SYSTEMS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240039790 titled 'RADIATION TOLERANT SOFTWARE DEFINED RADIO DEVICE FOR MULTI-BAND RADIO APPLICATIONS IN SPACE SYSTEMS
Simplified Explanation
The abstract of the patent application describes a radiation-tolerant software-defined radio device for multi-band radio applications in space systems. The device includes components that are not officially qualified for use in space but are used in terrestrial applications.
- The patent application is for a radiation-tolerant software-defined radio device for space systems.
- The device includes components that are not officially qualified for use in space but are used in terrestrial applications.
- The device is designed for multi-band radio applications in space systems.
- The device utilizes software-defined radio technology, allowing for flexibility and adaptability in radio communication.
- The device is capable of withstanding radiation in space environments, making it suitable for use in space systems.
- The components used in the device are not officially qualified for space use, suggesting a cost-effective approach by repurposing existing components.
Potential Applications:
- Communication systems in satellites and spacecraft
- Radio communication in space exploration missions
- Remote sensing and data collection in space systems
Problems Solved:
- Limited availability of radiation-tolerant components for space systems
- Costly development of space-qualified components
- Lack of flexibility and adaptability in traditional radio communication systems for space
Benefits:
- Cost-effective solution by utilizing components not officially qualified for space use
- Flexibility and adaptability through software-defined radio technology
- Radiation tolerance for reliable operation in space environments
- Potential for faster development and deployment of space systems due to the use of existing components.
Original Abstract Submitted
the radiation tolerant software defined radio device for multi-band radio applications in space systems comprising components for terrestrial application not qualified officially for use in space, the components comprising
