While satellite-based global navigation systems have become essential tools in our daily lives, their effectiveness is often hampered by the fact that the signals cannot be accessed in underground, indoor, or underwater environments. Recently, a novel navigation system has been invented to address this issue by utilizing the characteristics of the ubiquitous and highly penetrative cosmic-ray muons.

You are viewing a single thread.
View all comments View context
9 points

In its first phase of development, these reference detectors had to be connected to the receivers via a wired configuration to guarantee precise time synchronization. This work describes more versatile, wireless muometric navigation system (MuWNS), which was designed in conjunction with a cost-effective, crystal-oscillator-based grandmaster clock and a performance evaluation is reported for shallow underground/indoor, deep underground and undersea environments.

permalink
report
parent
reply
2 points

A wireless master-detector connection is bound by the same limitation: radio waves don’t propagate well in water and rock.

This could work underground for commercial operations via a combination of wired or wireless relays, but not for submarines or in other recreational situations, like spelunking.

permalink
report
parent
reply
2 points

The digital Through-The-Earth (TTE) communication system can be used to provide communications links from the surface to below-ground locations. The system can be used to provide real-time monitoring of equipment sensors. The TTE communication uses very low frequency (VLF) transmission (transmission is usually done with magnetic induction, at frequencies below 30 kHz) to provide reliable data links through environments surrounded by rock, but this system in turn severely limits the bandwidth available for information transmission with data rates ranging from 9 bps to 1 kpbs43. However, since both reference and receiver detectors have their own clock, the information that would have to be transferred to the counterpart detector to be effective is just n and t. Therefore, this data rate is sufficient for MuWNS communication requirements.

permalink
report
parent
reply
1 point

How can you have “reference” detectors if they are not talking to the differential as providing the accuracy. or maybe it can be used to tell you where you were when you come back to the surface and compare notes, but I dont see how it can see where you are now? However, mapping the seabed with a UAV if it can produce a this is what a saw, is an interesting project.

permalink
report
parent
reply

Science

!science@kbin.social

Create post

This magazine is dedicated to discussions on scientific discoveries, research, and theories across various fields, including physics, chemistry, biology, astronomy, and more. Whether you are a scientist, a science enthusiast, or simply curious about the world around us, this is the place for you. Here you can share your knowledge, ask questions, and engage in discussions on a wide range of scientific topics. From the latest breakthroughs to historical discoveries and ongoing research, this category covers a wide range of topics related to science.

Community stats

  • 20

    Monthly active users

  • 751

    Posts

  • 1.5K

    Comments

Community moderators