updated README.

README.md

@@ -9,41 +9,36 @@ MONARC - Method for an Optimised aNAlysis of Risks by CASES
 Introduction
 ------------
 
-[CASES](https://www.cases.lu) promotes information security through the use of
-behavioral, organizational and technical measures. Depending on its size and its
-security needs, organizations must react in the most appropriate manner.
-Adopting good practices, taking the necessary measures and adjusting them
-proportionally: all this is part of the process to ensure information security.
-Most of all, it depends on performing a risk analysis on a regular basis.
+Depending on its size and its security needs, organisations must react in the
+most appropriate manner. Adopting good practices, taking the necessary measures
+and adjusting them proportionally: all this is part of the process to ensure
+information security. Most of all, it depends on performing a risk analysis on
+a regular basis.
 
 Although the profitability of the risk analysis approach is guaranteed, the
 investment represented by this approach in terms of the required cost and
 expertise is a barrier for many companies, especially SMEs.
 
-To remedy this situation and allow all organizations, both large and small, to
+To remedy this situation and allow all organisations, both large and small, to
 benefit from the advantages that a risk analysis offers, CASES has developed an
-optimised risk analysis method:
-[MONARC](https://github.com/monarc-project/MonarcAppFO)
-(Method for an Optimised aNAlysis of Risks by CASES), allowing precise and
-repeatable risk management.
+optimised risk analysis method: [MONARC](https://github.com/monarc-project)
+(**Optimised Risk Analysis Method**), allowing precise and repeatable risk
+management.
 
-The advantage of MONARC lies in the capitalization of risk analyses already
-performed in similar business contexts: the same vulnerabilities
-regularly appear in many businesses, as they face the same threats and generate
-similar risks. Most companies have servers, printers, a fleet of smartphones,
-Wi-Fi antennas, etc. therefore the vulnerabilities and threats are the same.
-It is therefore sufficient to generalize risk scenarios for these assets (also
-called objects) by context and/or business.
-
-More information:
-[Optimised risk analysis Method](https://www.cases.lu/index-quick.php?dims_op=doc_file_download&docfile_md5id=56ee6ff569a40a5b52bed0e526a6a77f) (pdf)
+The advantage of MONARC lies in the capitalisation of risk analyses already
+performed in similar business contexts: the same vulnerabilities regularly
+appear in many businesses, as they face the same threats and generate similar
+risks. Most companies have servers, printers, a fleet of smartphones, Wi-Fi
+antennas, etc. therefore the vulnerabilities and threats
+are the same. It is therefore sufficient to generalise risk scenarios for these
+assets (also called objects) by context and/or business.
 
 
 Documentation
 -------------
 
-For a general user documentation see
-[here](https://github.com/monarc-project/MonarcAppFO/tree/master/docs).
+You will find a user guide and a technical guide on the
+[MONARC website](http://monarc.lu/).
 
 For installation instructions see
 [INSTALL](https://github.com/monarc-project/MonarcAppFO/tree/master/INSTALL).
@@ -52,6 +47,7 @@ If you want to test MONARC you can use the
 [latest release](https://github.com/monarc-project/MonarcAppFO/releases/latest)
 available as a VirtualBox machine.
 
+
 Contributing
 ------------