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Disrupt base station communications
Fifth-generation (5G) mobile technology has attracted interest from armed forces worldwide due to its many new possibilities for communication. Military operations may face threats in the electromagnet.
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FAQS about Disrupt base station communications
Can a radio system adapt to a poor radio channel?
The system’s ability to automatically adapt to a poor radio channel can be advantageous against interference. In the experiment, when the adaptation to the disruptions was successful, the user data could be transmitted with a lower modulation and coding scheme and, hence, reduced throughput.
How does a 5G radio system respond to a contested RF environment?
The 5G radio system responded to the contested RF environment by lowering the modulation and coding scheme and operating with reduced capacity when the jamming signal was tolerable. However, the results also showed that, in some cases, the 5G radio system struggled to find the optimal parameters for the communication under workable conditions.
Do unsynchronized operations work in mmWave vs C-band?
Unsynchronized operations work only if the networks have large geographical separation. In the mmWave band, cross-link interference is smaller compared to the C-Band, due to deployment and propagation characteristics like, for example, lower transmit power.
Why is the synchronization signal weak?
The uplink channel is more easily disrupted than the downlink channel and, hence, the weak link among the two. 6.3. Smart jamming The synchronization signals appeared to be relatively robust against simple interfering signals of the barrage and partial-band jamming.
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