APPLICATION-AWARE ROUTING THROUGH PATHS OF SATELLITE NETWORKS

Organization Name

Inventor(s)

APPLICATION-AWARE ROUTING THROUGH PATHS OF SATELLITE NETWORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18116493 titled 'APPLICATION-AWARE ROUTING THROUGH PATHS OF SATELLITE NETWORKS

Simplified Explanation

This patent application describes techniques for a low Earth orbit (LEO) satellite to route data through optimal satellite paths based on latency thresholds for the application generating the data.

Key Features and Innovation

LEO satellite identifies latency thresholds from data packets.
Determines available satellite paths for routing data packets to ground stations.
Compares latency thresholds with available satellite paths to select optimal path for data transmission.

Potential Applications

This technology can be used in satellite communication systems to improve data transmission efficiency and reduce latency for various applications such as remote sensing, weather monitoring, and communication services.

Problems Solved

This technology addresses the challenge of efficiently routing data through satellite paths to meet latency requirements for different types of applications.

Benefits

Improved data transmission efficiency.
Reduced latency for real-time applications.
Enhanced performance of satellite communication systems.

Commercial Applications

Satellite communication services.
Remote sensing applications.
Weather monitoring systems.

Questions about the Technology

How does this technology improve data transmission efficiency?

This technology improves data transmission efficiency by intelligently routing data through optimal satellite paths based on latency thresholds for different applications.

What are the potential commercial applications of this technology?

The potential commercial applications of this technology include satellite communication services, remote sensing applications, and weather monitoring systems.

Original Abstract Submitted

Techniques for a low Earth orbit (LEO) satellite to route data through optimal satellite paths based on latency thresholds (and/or other QoS thresholds) for the application generating the data. The LEO satellite may identify the latency threshold from a data packet, where the latency threshold indicates an amount of time for the data packet to be relayed back down to a destination ground device. The LEO satellite determines available satellite paths through which data packets may be routed to destination ground stations. Further, the LEO satellite may determine latencies for transmitting traffic over the available satellite paths. The LEO satellite may compare the latency threshold for the data packet with the latencies of the available satellite paths, and select a satellite path that is optimal for transmitting the data packet. In this way, LEO satellites intelligently route data through satellite paths based on the type of traffic being transmitted.