diff --git a/DESCRIPTION b/DESCRIPTION
index 0212f2fdc0d01862cdb32f9e14dd1b4cff1c7df2..8ca0a29eb59492d7ab221ec4fdb3ddb473b87de0 100644
--- a/DESCRIPTION
+++ b/DESCRIPTION
@@ -1,7 +1,7 @@
Package: airGR
Type: Package
Title: Suite of GR Hydrological Models for Precipitation-Runoff Modelling
-Version: 1.6.9.21
+Version: 1.6.9.22
Date: 2021-01-13
Authors@R: c(
person("Laurent", "Coron", role = c("aut", "trl"), comment = c(ORCID = "0000-0002-1503-6204")),
diff --git a/NEWS.md b/NEWS.md
index 32457e1aff5ea3693ffe89ad081e2a2adc587267..31767da8e44da2a2f3ac030484709f6f83ce7edf 100644
--- a/NEWS.md
+++ b/NEWS.md
@@ -2,7 +2,7 @@
-### 1.6.9.21 Release Notes (2021-01-13)
+### 1.6.9.22 Release Notes (2021-01-13)
#### New features
diff --git a/README.md b/README.md
index de829e4aa4b85ee42495d4d968f88c60159a5aff..1cbd4e205af9f708f4b876eddcecc738ac29edd6 100644
--- a/README.md
+++ b/README.md
@@ -3,7 +3,7 @@
## Overview
-This package brings into R the hydrological modelling tools developed at INRAE-Antony ([Catchment Hydrology research group](https://webgr.inrae.fr/en/) of the HYCAR Research Unit, France), including rainfall-runoff models (**GR4H**, **GR5H**, **GR4J**, **GR5J**, **GR6J**, **GR2M**, **GR1A**) and a snow accumulation and melt model (**CemaNeige**). Each model core is coded in Fortran to ensure low computational time. The other package functions (i.e. mainly the calibration algorithm and the computation of the efficiency criteria) are coded in R.
+This package brings into R the hydrological modelling tools developed at INRAE-Antony ([Catchment Hydrology research group](https://webgr.inrae.fr/en/home/) of the HYCAR Research Unit, France), including rainfall-runoff models (**GR4H**, **GR5H**, **GR4J**, **GR5J**, **GR6J**, **GR2M**, **GR1A**) and a snow accumulation and melt model (**CemaNeige**). Each model core is coded in Fortran to ensure low computational time. The other package functions (i.e. mainly the calibration algorithm and the computation of the efficiency criteria) are coded in R.
## Installation
@@ -56,7 +56,7 @@ To learn how to use the functions from the airGR package, it is recommended to f
4. refer to the help for `ErrorCrit_NSE` and `CreateInputsCrit` to understand how the computation of an error criterion is prepared/made;
5. refer to the help for `Calibration_Michel`, run the provided example and then refer to the help for `CreateCalibOptions` to understand how a model calibration is prepared/made.
-For more information and to get started with the package, you can refer to the vignette (`vignette("V01_get_started")`) and go on the [airGR website](https://hydrogr.github.io/airGR).
+For more information and to get started with the package, you can refer to the vignette (`vignette("V01_get_started")`) and go on the [airGR website](https://hydrogr.github.io/airGR/).
## References
diff --git a/vignettes/V01_get_started.Rmd b/vignettes/V01_get_started.Rmd
index fec3845f4c69f078dbc020e79b24d8592b460a1a..818e4b9227405fa8fa0b1fd8a2a01e7fd07ba5ef 100644
--- a/vignettes/V01_get_started.Rmd
+++ b/vignettes/V01_get_started.Rmd
@@ -10,7 +10,7 @@ vignette: >
# Introduction
-**airGR** is a package that brings into the [**R software**](https://cran.r-project.org/) the hydrological modelling tools used and developed at the [Catchment Hydrology Research Group](https://webgr.inrae.fr/en/) at [INRAE (France)](https://webgr.inrae.fr/en/), including the [**GR rainfall-runoff models**](https://webgr.inrae.fr/en/modeles/) and a snowmelt and accumulation model, [**CemaNeige**](https://webgr.inrae.fr/en/models/snow-model/). Each model core is coded in **Fortran** to ensure low computational time. The other package functions (i.e. mainly the calibration algorithm and the efficiency criteria calculation) are coded in **R**.
+**airGR** is a package that brings into the [**R software**](https://cran.r-project.org/) the hydrological modelling tools used and developed at the [Catchment Hydrology Research Group](https://webgr.inrae.fr/en/home/) at [INRAE (France)](https://www.inrae.fr/en), including the [**GR rainfall-runoff models**](https://webgr.inrae.fr/en/models/) and a snowmelt and accumulation model, [**CemaNeige**](https://webgr.inrae.fr/en/home/models/snow-model/). Each model core is coded in **Fortran** to ensure low computational time. The other package functions (i.e. mainly the calibration algorithm and the efficiency criteria calculation) are coded in **R**.
The **airGR** package has been designed to fulfill two major requirements: to facilitate the use by non-expert users and to allow flexibility regarding the addition of external criteria, models or calibration algorithms. The names of the functions and their arguments were chosen to this end. **airGR** also contains basics plotting facilities.
@@ -35,7 +35,7 @@ The models can be called within **airGR** using the following functions:
* `RunModel_CemaNeigeGR5J()`: combined use of **GR5J** and **CemaNeige**
* `RunModel_CemaNeigeGR6J()`: combined use of **GR6J** and **CemaNeige**
-The [**GRP**](https://webgr.inrae.fr/en/models/hydrological-forecasting-model-grp/) forecasting model and the [**Otamin**](https://webgr.inrae.fr/en/software/otamin/) predictive uncertainty tool are not available in **airGR**.
+The [**GRP**](https://webgr.inrae.fr/en/home/models/hydrological-forecasting-model-grp/) forecasting model and the [**Otamin**](https://webgr.inrae.fr/en/home/software/otamin/) predictive uncertainty tool are not available in **airGR**.
In this vignette, we show how to prepare and run a calibration and a simulation with airGR hydrological models.