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-rw-r--r--vorlagen/thesis/maindoc.pdfbin6221891 -> 6221890 bytes
-rw-r--r--vorlagen/thesis/src/kapitel_x.tex4
2 files changed, 2 insertions, 2 deletions
diff --git a/vorlagen/thesis/maindoc.pdf b/vorlagen/thesis/maindoc.pdf
index afc239e..5424757 100644
--- a/vorlagen/thesis/maindoc.pdf
+++ b/vorlagen/thesis/maindoc.pdf
Binary files differ
diff --git a/vorlagen/thesis/src/kapitel_x.tex b/vorlagen/thesis/src/kapitel_x.tex
index eaf5002..cbdc1fc 100644
--- a/vorlagen/thesis/src/kapitel_x.tex
+++ b/vorlagen/thesis/src/kapitel_x.tex
@@ -1288,9 +1288,9 @@ measurements \citep{pseudorangeError} \citep[Chapter 7]{understandGPS}.
\section{Assisted GPS in Wireless networks}
\label{sec:agps}
In the following paragraphs Assisted GPS (AGPS) will be presented and how it works.
-AGPS receivers work on a ``similar principle'' as warm/hot start on GPS receivers.
+AGPS receivers work on the equivalent idea as warm/hot start on GPS receivers.
Instead of loading the recently saved data from the EEPROM, an external
-transfer medium is used to deliver the same type of information that are known
+information transfer medium is used to deliver the equivalent type of information that are known
at a warm/hot start \citep{755159}, \citep{901174}, \citep{springerlink:10.1007/s10291-002-0028-0}.
In this work, the external transfer medium is air and the information are transfered using electromagnetic
waves. The existing GSM interface was utilised for the purpose of delivering the data to the smart phone