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= GNU Radio Academy =
Please leave tutorials-related feedback (either for an individual tutorial or overall organization) in the [[Talk:Tutorials|Discussion]] page of this article (tab at the top), we are always looking for ways to improve.


The following sequence of tutorials will carry a new user through the core GNU Radio concepts, while providing examples along the way.  If you already have experience with GNU Radio, feel free to skip the first several.
{|
 
|- valign="top"
# [[Guided_Tutorial_Introduction|'''A Brief Introduction to GNU Radio, SDR, and DSP''']]
|{{BeginnerTutorials}}
# [[Guided_Tutorial_GRC|'''Introduction to GNU Radio Usage: GRC and Flowgraphs''']]
|
# [[Sample_Rate_Tutorial|'''Understanding Sample Rate''']]
{| class="wikitable" style="background-color:#f1edff;" cellpadding="10"
# '''Simulation Examples (we recommend going through at least one):'''
|'''Intermediate/Advanced Tutorials'''
#* [[Guided_Tutorial_PSK_Demodulation|'''QPSK Modulation / Demodulation''']]
Core GNU Radio Mechanics
#* [[Simulation_example:_FSK|'''Frequency Shift Keying (FSK)''']]
# [[Stream_Tags|Stream Tags]]
#* [[Simulation_example:_AM_transmitter_and_receiver|'''AM transmitter and receiver''']]
# [[Polymorphic_Types_(PMTs)|Polymorphic Types (PMTs)]]
#* [[Simulation_example:_Single_Sideband_transceiver|'''Single Sideband transceiver''']]
# [[Message_Passing|Message Passing]]
#* [[Simulation_example:_Narrowband_FM_transceiver|'''Narrowband FM transceiver''']]
# [[Virtual_Sinks_and_Sources|Virtual Sinks and Sources]]
#* [[Simulation_example:_BPSK_Demodulation|'''BPSK Demodulation''']]
# [[Importing_Libraries|Importing Libraries]]
#* [[Basic_OFDM_Tutorial|'''OFDM Basics''']]
Modulation and Demodulation
# [[Guided_Tutorial_Hardware_Considerations|'''Using GNU Radio with Hardware''']]
# [[Simulation_example:_Narrowband_FM_transceiver|Narrowband FM]]
# [[Flowgraph_Python_Code|'''Understanding a Flowgraph's Python Code''']]
# [[Simulation_example:_Single_Sideband_transceiver|Single Sideband (SSB)]]
# [[Embedded_Python_Block|'''Writing your own block''' (using Embedded Python Block)]]
# [[QPSK_Mod_and_Demod|QPSK Mod and Demod]]
# [[Polymorphic Types (PMTs)|'''Polymorphic Types (PMTs)''']]
# [[Simulation_example:_BPSK_Demodulation|BPSK Demodulation]]
# [[Stream Tags|'''Stream Tags''']]
# [[Simulation_example:_FSK|Frequency Shift Keying (FSK)]]
# [[Message Passing|'''Message Passing''']]
# [[Basic_OFDM_Tutorial|OFDM Basics]]
# [[Understanding_ZMQ_Blocks|'''Understanding ZMQ Blocks''']]
# [[Packet_Communications|Packet Communications]]
# [[OutOfTreeModules|'''Out of Tree modules''']]
# [[File_transfer_using_Packet_and_BPSK|File transfer using Packet and BPSK]]
# [[XML_GRC|'''Writing the XML file for a block''' (for 3.7)]] or [[YAML_GRC|'''Writing the YAML file for a block''' (for 3.8+)]]
Custom Blocks and Out of Tree (OOT) Modules
# [[Guided_Tutorial_GNU_Radio_in_C++|'''Writing blocks in C++''']]
# [[Creating_Python_OOT_with_gr-modtool|Creating an OOT (Python block example)]]
 
# [[Creating_C++_OOT_with_gr-modtool|Creating an OOT (C++ block example)]]
= Developer Resources =
# [[YAML_GRC|Writing the YAML file for a block (GR 3.8+)]]
* [[VOLK_Guide|'''Volk- what it does, why it rocks, how to write new kernels''']]
Miscellaneous
* [[GNU Radio 3.8 OOT Module Porting Guide|'''Porting Existing OOTs from 3.7 to 3.8''']]
# [[Flowgraph_Python_Code|Understanding a Flowgraph's Python Code]]
* [[GNU Radio 3.9 OOT Module Porting Guide|'''Porting Existing OOTs from 3.8 to 3.9''']]
# [[Guided_Tutorial_Hardware_Considerations|Using GNU Radio With SDRs]]
* [[ALSAPulseAudio|'''Working with ALSA and Pulse Audio''']]
# [[IQ_Complex_Tutorial|IQ and Complex Signals]]
* [[UsingVSCode|'''Using Visual Studio Code for Source level debugging of C++ OOTs''']]
# [[Sample_Rate_Tutorial|Understanding Sample Rate]]
* [[UsingEclipse|'''Using Eclipse for Building and Source level debugging C++ OOTs''']]
# [[Understanding_ZMQ_Blocks|Understanding ZMQ Blocks]]
* [[UsingCB|'''Using Code::Blocks IDE for GNU Radio Development''']]
# [[Bandlimited_threshold_detector| Bandlimited Threshold and Detection Demo Application]]
* [[DevelopingWithGit|'''Git and GNU Radio''']]
# [[Pushbutton_IQ_Recorder_with_descriptive_filenames| Pushbutton I/Q Recorder with Descriptive File Names]]
* [[Octave|'''How to use Octave or Matlab with GNU Radio''']]
|}
* [http://www.trondeau.com/blog/2013/9/15/explaining-the-gnu-radio-scheduler.html '''The GNU Radio Scheduler''']
|
{| class="wikitable" style="background-color:#f1edff;" cellpadding="10"
|'''Developer Resources'''
# [[Porting_Existing_Flowgraphs_to_a_Newer_Version|Porting Existing Flowgraphs to Newer Version]]
# [[GNU Radio 3.10 OOT Module Porting Guide|Porting Existing OOTs from 3.9 to 3.10]]
# [[GNU_Radio_3.9_OOT_Module_Porting_Guide|Porting Existing OOTs from 3.8 to 3.9]]
# [[GNU_Radio_3.8_OOT_Module_Porting_Guide|Porting Existing OOTs from 3.7 to 3.8]]
# [[VOLK_Guide|VOLK: What it does, why it rocks, how to write new kernels]]
# [[ALSAPulseAudio|Working with ALSA and Pulse Audio]]
# [[UsingVSCode|Using Visual Studio Code for GNU Radio Development]]
# [[UsingEclipse|Using Eclipse for Building and Source level debugging C++ OOTs]]
# [[UsingCB|Using Code::Blocks IDE for GNU Radio Development]]
# [[DevelopingWithGit|Git and GNU Radio]]
# [[Octave|How to use Octave or Matlab with GNU Radio]]
# [http://www.trondeau.com/blog/2013/9/15/explaining-the-gnu-radio-scheduler.html The GNU Radio Scheduler]
# [[CustomBuffers|Using Custom Buffers for Hardware Accelerated Blocks]]
# [[Understanding_XMLRPC_Blocks|Remote Control and Automation of Flowgraphs with XMLRPC]]
|}
|}

Latest revision as of 09:01, 4 September 2024

Please leave tutorials-related feedback (either for an individual tutorial or overall organization) in the Discussion page of this article (tab at the top), we are always looking for ways to improve.

Beginner Tutorials

Introducing GNU Radio

  1. What is GNU Radio?
  2. Installing GNU Radio
  3. Your First Flowgraph

Flowgraph Fundamentals

  1. Python Variables in GRC
  2. Variables in Flowgraphs
  3. Runtime Updating Variables
  4. Signal Data Types
  5. Converting Data Types
  6. Packing Bits
  7. Streams and Vectors
  8. Hier Blocks and Parameters

Creating and Modifying Python Blocks

  1. Creating Your First Block
  2. Python Block With Vectors
  3. Python Block Message Passing
  4. Python Block Tags

DSP Blocks

  1. Low Pass Filter Example
  2. Designing Filter Taps
  3. Sample Rate Change
  4. Frequency Shifting
  5. Reading and Writing Binary Files

SDR Hardware

  1. RTL-SDR FM Receiver
  2. B200-B205mini FM Receiver
Intermediate/Advanced Tutorials

Core GNU Radio Mechanics

  1. Stream Tags
  2. Polymorphic Types (PMTs)
  3. Message Passing
  4. Virtual Sinks and Sources
  5. Importing Libraries

Modulation and Demodulation

  1. Narrowband FM
  2. Single Sideband (SSB)
  3. QPSK Mod and Demod
  4. BPSK Demodulation
  5. Frequency Shift Keying (FSK)
  6. OFDM Basics
  7. Packet Communications
  8. File transfer using Packet and BPSK

Custom Blocks and Out of Tree (OOT) Modules

  1. Creating an OOT (Python block example)
  2. Creating an OOT (C++ block example)
  3. Writing the YAML file for a block (GR 3.8+)

Miscellaneous

  1. Understanding a Flowgraph's Python Code
  2. Using GNU Radio With SDRs
  3. IQ and Complex Signals
  4. Understanding Sample Rate
  5. Understanding ZMQ Blocks
  6. Bandlimited Threshold and Detection Demo Application
  7. Pushbutton I/Q Recorder with Descriptive File Names
Developer Resources
  1. Porting Existing Flowgraphs to Newer Version
  2. Porting Existing OOTs from 3.9 to 3.10
  3. Porting Existing OOTs from 3.8 to 3.9
  4. Porting Existing OOTs from 3.7 to 3.8
  5. VOLK: What it does, why it rocks, how to write new kernels
  6. Working with ALSA and Pulse Audio
  7. Using Visual Studio Code for GNU Radio Development
  8. Using Eclipse for Building and Source level debugging C++ OOTs
  9. Using Code::Blocks IDE for GNU Radio Development
  10. Git and GNU Radio
  11. How to use Octave or Matlab with GNU Radio
  12. The GNU Radio Scheduler
  13. Using Custom Buffers for Hardware Accelerated Blocks
  14. Remote Control and Automation of Flowgraphs with XMLRPC