The concept of orthogonality is really cool: make your signal so that when a signal is at its peak, all others are null, and you can send more information within the same frame. 🚀
Only the benefits of OFDM are explained here, but how to address the disadvantages of OFDM like high peak to average power ratio (PAPR), OOBE, synchronization sensitivity, and security issues are not mentioned in this video.
Noma is also applicable in 5G. Currently the modulation and multiplexing technique used is OFDMA. But Cell RS is not used in 5G. Soo i guess here the reference is with LTE
The concept of orthogonality is really cool: make your signal so that when a signal is at its peak, all others are null, and you can send more information within the same frame. 🚀
Only the benefits of OFDM are explained here, but how to address the disadvantages of OFDM like high peak to average power ratio (PAPR), OOBE, synchronization sensitivity, and security issues are not mentioned in this video.
ICI is the worst. OFDM isn't so great
Hey it is not used in 5G, non orthogonal multiplexing access NOMA technology used.
Noma is also applicable in 5G. Currently the modulation and multiplexing technique used is OFDMA.
But Cell RS is not used in 5G. Soo i guess here the reference is with LTE
Nice one
Glad you enjoyed it!
Can u be exposse ur mat code?
Very useful
Great
Matlabenazo....
📊📈