As infrastructure development progresses, GNSS applications (such as real-time kinematic and unmanned aerial vehicles) require a reliable tropospheric model that works not only on the surface but also over broader operating heights to pre-correct delays. Such delays cause non-negligible errors in microwave-dependent techniques. This eventually forms complicated and diverse delays in satellite data (such as global navigation satellite system (GNSS) observations), particularly for the wet component. Tibet presents significant elevation changes, thus leading to extraordinary tropospheric conditions.
0 Comments
Leave a Reply. |