updated project name and url

README.md

-# Unnamend measurement network project preparations
+# AerObs
 
-Please check the **[issue tracker](https://gitlab.phaidra.org/gattria6/unnamed-measurement-network-project-preparations/-/issues)** and the **[wiki](https://gitlab.phaidra.org/gattria6/unnamed-measurement-network-project-preparations/-/wikis/home)**.
+Please check the **[issue tracker](https://gitlab.phaidra.org/gattria6/aerobs/-/issues)** and the **[wiki](https://gitlab.phaidra.org/gattria6/aerobs/-/wikis/home)**.
 
 This git repository contains the preparations for the yet unnamed measurement network project for 'Turmlabor'.
 
@@ -21,7 +21,7 @@ Our main focus should be quality, QA, and documentation. All components should b
 ## Microcontroller
 Each device or sensor (or sensor cluster) will have its own microcontroller. This microcontroller will communicate control the device and broadcast acquired data. For this we need a microcontroller platform that is easy to extend, standardised and relatively cheap (so we can keep spares at hand).
 
-See https://gitlab.phaidra.org/gattria6/unnamed-measurement-network-project-preparations/-/wikis/Hardware
+See https://gitlab.phaidra.org/gattria6/aerobs/-/wikis/Hardware
 
 ## Network
 In the first iteration we require a physically isolated network. Each measurement device broadcasts the data via UDP.
@@ -34,7 +34,7 @@ In the simplest form data acquisition and control will run on the same computer/
 
 
 ## Protocol
-See https://gitlab.phaidra.org/gattria6/unnamed-measurement-network-project-preparations/-/wikis/Protocol
+See https://gitlab.phaidra.org/gattria6/aerobs/-/wikis/Protocol
 
 ## Software
 Ideally all software will be written in Python or MicroPython. The system should be open source and free software.