# <center><i class="fa fa-edit"></i> Study Note</center> --- ## I. Learn the background of Open RAN and 5G >Reference: >[Introduction to open RAN](https://bit.ly/2ZdgGYU), [5G 101 Part 1](https://bit.ly/2sMuM7E), [5G 101 Part 2](https://bit.ly/390oDp3), [Others](https://bit.ly/2EJw2uM))[color=#3CB371] :::info ::: ## II. Functional Split: >* Use a figure to show the options for functional splits and their pros and cons >* Show us the option adopted by O-RAN (Ref: https://bit.ly/2YuAFC9) >* Use a figure to show the general architecture of O-RAN (Ref: https://bit.ly/2P3m65n) >* Describe the main components of O-RAN network >* Use a figure to show O-RAN Architecture and the features provided in each functional block (https://docs.o-ran-sc.org/en/latest/ > >[color=#3CB371] :::info ::: ## III. Study Jonathan's O-RAN Study Note >Reference: >https://bit.ly/35DrGBl >[color=#3CB371] :::info ::: ## VI-A. Study the specification and source code for O-DU >* Draw the functional block diagram and their interface >* Mapping the source code to the functional block > >[color=#3CB371] :::info ::: ## VI-B. Study the specification and source code for O-CU >* Draw the functional block diagram and their interface >* Mapping the source code to the functional block > >[color=#3CB371] :::info ::: ## VI-C. Study the specification and source code for Near-RT RAN Intelligent Controller (RIC) >* Draw the functional block diagram and their interface >* Mapping the source code to the functional block > >[color=#3CB371] :::info ::: ## VI-D. Study the specification and source code for Near-RT RAN Intelligent Controller (RIC) >* Draw the functional block diagram and their interface >* Mapping the source code to the functional block > >[color=#3CB371] :::info ::: ## V. Reference: >* Jonathan's studying note for O-RAN https://bit.ly/2PCQN0z > >[color=#3CB371] :::info ::: ## VI. Compile and install the open source code provided by OSC > :::info :::