Update links for new aredn code repo

Update links pointing to the new aredn code repo.

README.md

@@ -8,8 +8,8 @@ To view the AREDN documentation in a web browser, navigate to [https://arednmesh
 While viewing the AREDN documentation in your web browser, you will see the contents list in the left panel. At the bottom of the panel is a drawer labeled "ReadTheDocs" showing the version you are viewing. Click the label bar to open it. From the drawer you can export the documentation set as a single PDF or Epub file. This is handy if you want to take a PDF copy of the guidebook with you into the field where you do not have Internet access.
 
 ## Contributing:
-If you are interested in contributing to the rapidly growing set of AREDN related information, you can easily do so on GitHub. The workflow for contributing documentation is identical to the workflow for contributing code which is described in detail here: [How to Use GitHub for AREDN](https://github.com/aredn/documentation/blob/master/How%20to%20Use%20GitHub%20for%20AREDN.md).
+If you are interested in contributing to the rapidly growing set of AREDN related information, you can easily do so on GitHub. The workflow for contributing documentation is described in detail here: [How to Use GitHub for AREDN](https://github.com/aredn/documentation/blob/master/How%20to%20Use%20GitHub%20for%20AREDN.md).
 
-The only difference is the repository name of `aredn/documentation` and the main branch name of `master`. Your local code branch name can be anything that makes sense to you. After you create your Pull Request, the AREDN team will review your request just as it does for code changes. Once your documentation contributions are committed to the AREDN GitHub repository, a webhook updates and builds the latest docs for viewing and exporting on ReadTheDocs.org
+Your local code branch name can be anything that makes sense to you. After you create your Pull Request, the AREDN team will review your request just as it does for code changes. Once your documentation contributions are committed to the AREDN GitHub repository, a webhook automatically updates and builds the latest docs for viewing and exporting on ReadTheDocs.org
 
 AREDN documentation is written using the reStructuredText markup language. Text is saved in "rst" files. Before committing your changes, be sure to test your `rst` files to ensure they will render correctly.

appendix/more_info.rst

@@ -21,7 +21,7 @@ If you are interested in contributing to the rapidly growing set of AREDN |trade
 6. Go to your local computer and clone your fork of the AREDN |trade| documentation: ``git clone https://github.com/YOUR-GITHUB-ID/documentation``
 7. Navigate on your local computer to the folder where your cloned copy of the repository is located: ``cd documentation``  This directory contains your local copy of the AREDN |trade| documentation, and all of your document editing should be done while you are in this directory or its subdirectories.
 
-The workflow for contributing documentation is identical to the workflow for contributing code which is described in the file titled **How to Use GitHub for AREDN**, a copy of which you already have in your new local repository. Refer to that document for additional information about contributing AREDN |trade| documentation.
+The workflow for contributing documentation is described in the file titled `How to Use GitHub for AREDN <https://github.com/aredn/documentation/blob/master/How%20to%20Use%20GitHub%20for%20AREDN.md>`_, a copy of which you will have in your new local repository. Refer to that document for additional information about contributing AREDN |trade| documentation.
 
 Your local editing branch name can be anything that makes sense to you as you add topics to the documentation. AREDN |trade| documentation is written using the `reStructuredText <https://docutils.sourceforge.io/docs/ref/rst/restructuredtext.html>`_ markup language and your text is saved in "rst" files. Before committing your changes, be sure to test your rst files locally using `Sphinx <https://www.sphinx-doc.org/en/master/usage/quickstart.html>`_ to ensure they will render correctly.
 

arednGettingStarted/advanced_config.rst

@@ -117,7 +117,7 @@ VLAN 2
 No VLAN tag
   Packets received by the node that are untagged will be identified as LAN traffic from computers on the local area network.
 
-It is important to understand AREDN |trade| VLANs when configuring network smart switches for Internet access, tunneling, or DtD linking of nodes. There are some useful tutorials available on the AREDN |trade| website for configuring VLAN-capable switches: `Video <https://www.arednmesh.org/content/understanding-vlans>`_ or `Text+Images <https://www.arednmesh.org/content/configuring-netgear-gs105e-switch-lanwan-ports>`_. Also, on the AREDN |trade| GitHub site there is more information about node VLANs that have been preconfigured in the firmware images for specific types of radio hardware. For additional information visit this link: `Ethernet Port Usage <https://github.com/aredn/aredn_ar71xx#ethernet-port-usage>`_
+It is important to understand AREDN |trade| VLANs when configuring network smart switches for Internet access, tunneling, or DtD linking of nodes. There are some useful tutorials available on the AREDN |trade| website for configuring VLAN-capable switches: `Video <https://www.arednmesh.org/content/understanding-vlans>`_ or `Text+Images <https://www.arednmesh.org/content/configuring-netgear-gs105e-switch-lanwan-ports>`_. Also, on the AREDN |trade| GitHub site there is more information about node VLANs that have been preconfigured in the firmware images for specific types of radio hardware. For additional information visit this link: `Ethernet Port Usage <https://github.com/aredn/aredn#ethernet-port-usage>`_
 
 Port Forwarding, DHCP, and Services
 -----------------------------------

arednHow-toGuides/home-router-connection.rst

@@ -2,7 +2,7 @@
 Connecting Nodes to Home Routers
 ================================
 
-There are several AREDN |trade| nodes that have more than one Ethernet port, including the *Mikrotik hAP ac lite* as well as the *GL.iNet AR150, AR300M16*, and *AR750 Creta*. The AREDN |trade| firmware running on these types of nodes has the WAN port preconfigured for connecting to the Internet. You can get the latest information about the specific port configured as the node's WAN port from the AREDN |trade| website here: `Ethernet Port Usage <https://github.com/aredn/aredn_ar71xx/blob/develop/README.md#ethernet-port-usage>`_
+There are several AREDN |trade| nodes that have more than one Ethernet port, including the *Mikrotik hAP ac lite* as well as the *GL.iNet AR150, AR300M16*, and *AR750 Creta*. The AREDN |trade| firmware running on these types of nodes has the WAN port preconfigured for connecting to the Internet. You can get the latest information about the specific port configured as the node's WAN port from the AREDN |trade| website here: `Ethernet Port Usage <https://github.com/aredn/aredn#ethernet-port-usage>`_
 
 .. image:: _images/home-router-connection.png
    :alt:  Connect nodes to Internet through home router

arednServicesGuide/other_programs.rst

@@ -47,7 +47,7 @@ GPS Tracking Services
 
 Tracking deployed resources is an important task during any emergency. There are many options for monitoring and displaying the GPS locations of tracked resources, two of which are mentioned here.
 
-Many amateur radios and portable locating beacons transmit `Automatic Packet Reporting System (APRS) <https://en.wikipedia.org/wiki/Automatic_Packet_Reporting_System>`_ information. It is possible to implement an APRS receiver using inexpensive, battery-powered, portable computers and USB `Software Defined Radios (SDR) <https://en.wikipedia.org/wiki/Software-defined_radio>`_. The details are widely available for building these receivers using Raspberry Pi computers with `Direwolf <https://github.com/wb2osz/direwolf/blob/master/README.md>`_ and `Xastir <http://xastir.org/index.php/Main_Page>`_ or `YAAC <https://sourceforge.net/p/yetanotheraprsc/wiki/Home/>`_ software.
+Many amateur radios and portable locating beacons transmit `Automatic Packet Reporting System (APRS) <https://en.wikipedia.org/wiki/Automatic_Packet_Reporting_System>`_ information. It is possible to implement an APRS receiver using inexpensive, battery-powered, portable computers and USB `Software Defined Radios (SDR) <https://en.wikipedia.org/wiki/Software-defined_radio>`_. The details are widely available for building these receivers using Raspberry Pi computers with `Direwolf <https://github.com/wb2osz/direwolf/blob/master/README.md>`_ and `Xastir <https://sourceforge.net/projects/xastir/>`_ or `YAAC <https://sourceforge.net/p/yetanotheraprsc/wiki/Home/>`_ software.
 
 There may be situations when it would also be helpful to track the locations of aircraft during an emergency. `Automatic Dependent Surveillance-Broadcast (ADS-B) <https://en.wikipedia.org/wiki/Automatic_dependent_surveillance_%E2%80%93_broadcast>`_ information is available which can be captured using portable computers with ADS-B receivers. The following image shows the track of two water tankers dropping fire retardant above Santa Barbara, California, during the 2017 `Thomas Fire <https://en.wikipedia.org/wiki/Thomas_Fire>`_. This information was displayed across an AREDN |trade| network using an `ADS-B Ground station <https://flightaware.com/adsb/piaware/build>`_ which was running as a mesh network service.