Merge branch 'gh-pages' of https://github.com/gnss-sdr/geniuss-place

Gemfile.lock

@@ -1,36 +1,47 @@
 GEM
   remote: https://rubygems.org/
   specs:
-    activesupport (7.0.4.3)
+    activesupport (7.1.0)
+      base64
+      bigdecimal
       concurrent-ruby (~> 1.0, >= 1.0.2)
+      connection_pool (>= 2.2.5)
+      drb
       i18n (>= 1.6, < 2)
       minitest (>= 5.1)
+      mutex_m
       tzinfo (~> 2.0)
-    addressable (2.8.3)
+    addressable (2.8.5)
       public_suffix (>= 2.0.2, < 6.0)
+    base64 (0.1.1)
+    bigdecimal (3.1.4)
     coffee-script (2.4.1)
       coffee-script-source
       execjs
     coffee-script-source (1.11.1)
     colorator (1.1.0)
-    commonmarker (0.23.8)
+    commonmarker (0.23.10)
     concurrent-ruby (1.2.2)
-    dnsruby (1.61.9)
-      simpleidn (~> 0.1)
+    connection_pool (2.4.1)
+    dnsruby (1.70.0)
+      simpleidn (~> 0.2.1)
+    drb (2.1.1)
+      ruby2_keywords
     em-websocket (0.5.3)
       eventmachine (>= 0.12.9)
       http_parser.rb (~> 0)
     ethon (0.16.0)
       ffi (>= 1.15.0)
     eventmachine (1.2.7)
     eventmachine (1.2.7-x64-mingw32)
-    execjs (2.8.1)
-    faraday (2.7.4)
+    execjs (2.9.1)
+    faraday (2.7.11)
+      base64
       faraday-net_http (>= 2.0, < 3.1)
       ruby2_keywords (>= 0.0.4)
     faraday-net_http (3.0.2)
-    ffi (1.15.5)
-    ffi (1.15.5-x64-mingw32)
+    ffi (1.16.3)
+    ffi (1.16.3-x64-mingw32)
     forwardable-extended (2.6.0)
     gemoji (3.0.1)
     github-pages (228)
@@ -88,7 +99,7 @@ GEM
       activesupport (>= 2)
       nokogiri (>= 1.4)
     http_parser.rb (0.8.0)
-    i18n (1.12.0)
+    i18n (1.14.1)
       concurrent-ruby (~> 1.0)
     jekyll (3.9.3)
       addressable (~> 2.4)
@@ -207,26 +218,29 @@ GEM
       rb-fsevent (~> 0.10, >= 0.10.3)
       rb-inotify (~> 0.9, >= 0.9.10)
     mercenary (0.3.6)
-    mini_portile2 (2.8.1)
+    mini_portile2 (2.8.4)
     minima (2.5.1)
       jekyll (>= 3.5, < 5.0)
       jekyll-feed (~> 0.9)
       jekyll-seo-tag (~> 2.1)
-    minitest (5.18.0)
-    nokogiri (1.14.2)
-      mini_portile2 (~> 2.8.0)
+    minitest (5.20.0)
+    mutex_m (0.1.2)
+    nokogiri (1.15.4)
+      mini_portile2 (~> 2.8.2)
+      racc (~> 1.4)
+    nokogiri (1.15.4-x64-mingw32)
       racc (~> 1.4)
     octokit (4.25.1)
       faraday (>= 1, < 3)
       sawyer (~> 0.9)
     pathutil (0.16.2)
       forwardable-extended (~> 2.6)
     public_suffix (4.0.7)
-    racc (1.6.2)
+    racc (1.7.1)
     rb-fsevent (0.11.2)
     rb-inotify (0.10.1)
       ffi (~> 1.0)
-    rexml (3.2.5)
+    rexml (3.2.6)
     rouge (3.26.0)
     ruby2_keywords (0.0.5)
     rubyzip (2.3.2)
@@ -252,6 +266,7 @@ GEM
     unf (0.1.4)
       unf_ext
     unf_ext (0.0.8.2)
+    unf_ext (0.0.8.2-x64-mingw32)
     unicode-display_width (1.8.0)
     webrick (1.8.1)
 
@@ -274,4 +289,4 @@ DEPENDENCIES
   webrick (~> 1.7)
 
 BUNDLED WITH
-   2.3.17
+   2.3.6

_design-forces/08-portability.md

@@ -237,9 +237,9 @@ receiver:
   - Others.
 
 - Support of FPGA offloading (define FPGA's vendor/model).
-  - [Xilinx](https://www.xilinx.com/)
-  - [Altera](https://www.altera.com/)
-  - [Microsemi (formerly Actel)](https://www.microsemi.com/product-directory/1636-fpga-soc)
+  - [AMD (formerly Xilinx)](https://www.xilinx.com/products/silicon-devices/fpga.html)
+  - [Intel (formerly Altera)](https://www.intel.com/content/www/us/en/products/programmable.html)
+  - [Microchip (formerly Actel)](https://www.microchip.com/en-us/products/fpgas-and-plds#)
   - Others.
 
 - Other software dependencies (define required minimal versions).

_pages/acknowledgements.md

@@ -191,40 +191,3 @@ and open-source GNSS software-defined receiver:
     projects.
     {: .notice--success}
 
-
-## Sponsors
-
-![NSL logo]({{ "/assets/images/logo-nsl.jpg" | relative_url }}){:height="250px" width="250px"}
-{: style="text-align: center;"}
-
-* [NSL](https://gmvnsl.com/), a leading company specialised in satellite
-navigation, actively supported GNSS-SDR. Based in Nottingham, UK, NSL deliver
-reliable and robust Global Navigation Satellite System technologies for a
-variety of applications, such as those that require highest accuracies, impact
-safety, or are critical in terms of business, finance and security. NSL also
-produce radiofrequency front-ends and associated products, for example the
-dual channel
-[Stereo](https://gmvnsl.com/advanced-gnns-hw-sw/2016-04-11-15-01-35) system
-that is being used with GNSS-SDR development.
-
-[**NSL**](https://gmvnsl.com/) kindly provided equipment and technical support
-to the development of dual-band software architectures.
-{: .notice--success}
-
------
-
-
-![Xilinx logo]({{ "/assets/images/logo-xilinx.png" | relative_url }}){:height="250px" width="250px"}
-{: style="text-align: center;"}
-
-* [Xilinx](https://www.xilinx.com) is a worldwide renowned supplier of
-programmable logic devices. It is known for inventing the field-programmable
-gate array (FPGA) and as the first semiconductor company with a fabless
-manufacturing model.
-
-Through their [**Xilinx University Program
-(XUP)**](https://www.xilinx.com/support/university.html), Xilinx is supporting
-GNSS-SDR with the donation of four Zedboard development kits and a full license
-of the Vivado Design Suite, a software tool for synthesis and analysis of HDL
-designs.
-{: .notice--success}

_pages/publications.md

@@ -16,6 +16,35 @@ List of academic papers in which GNSS-SDR has been referenced, described or used
 
 <h3 style="margin-bottom:0px;padding-top:10px;">Articles in peer-reviewed, indexed Journals and Magazines</h3>
 
+
+<ul class="biblist">
+    <!-- Item: Varais23 -->
+    <li ><p>
+    N.&nbsp;Varais, J.&nbsp;Verdun, J.&nbsp;Cali and L.&nbsp;Lestarquit
+    <br><b>Lake Altimetry Using Long Coherent Integration Carrier Phase Measurements from Airborne GNSS Reflectometry</b><br>
+    <i>Remote Sensing</i>, Vol. 15, 4192, pp. 1-17, Sept. 2023.
+    <br />
+    <a href="javascript:toggleBibtex('Varais23')">[BibTeX]</a>
+    <span style="color: #52adc8">[</span><a href="https://www.mdpi.com/2072-4292/15/17/4192" >Online <i class="ai ai-open-access"> </i></a><span style="color: #52adc8">]</span>
+    <span style="color: #52adc8">[</span><a href="https://doi.org/10.3390/rs15174192" ><i class="ai ai-doi"> </i></a><span style="color: #52adc8">]</span>
+    </p>
+    <div id="bib_Varais23" class="bibtex noshow" style="color: #111111">
+    <pre>@article{ Varais23,
+author  = {N.~Varais and J.~Verdun and J.~Cali and L.~Lestarquit},
+title   = {Lake Altimetry Using Long Coherent Integration Carrier Phase Measurements from Airborne {GNSS} Reflectometry},
+journal = {Remote Sensing},
+year    = {2023},
+month   = {Sep},
+volume  = {15},
+number  = {4192},
+pages   = {1--17},
+note    = { {doi}: 10.3390/rs15174192}
+}</pre>
+    </div>
+    </li>
+</ul>
+
+
 <ul class="biblist">
     <!-- Item: Srinu23 -->
     <li ><p>
@@ -470,7 +499,7 @@ note    = {doi: 10.1007/978-981-15-3715-8}
 Cork, Ireland, 31 Aug. / 3 Sept., 2020. pp. 1-4.
     <br />
     <a href="javascript:toggleBibtex('Calvo20')">[BibTeX]</a>
-    <span style="color: #52adc8">[</span><a href="http://eprints.networks.imdea.org/id/eprint/2139" >Online <i class="ai ai-open-access"> </i></a><span style="color: #52adc8">]</span>
+    <span style="color: #52adc8">[</span><a href="https://faculty.iiitd.ac.in/~arani/assets/pdf/wowmom20.pdf" >Online <i class="ai ai-open-access"> </i></a><span style="color: #52adc8">]</span>
     </p>
     <div id="bib_Calvo20" class="bibtex noshow" style="color: #111111">
     <pre>@inproceedings{ Calvo20,

_posts/2013-02-01-google-summer-code-2013-ideas-list.md

@@ -13,7 +13,7 @@ redirect_from:
   - /node/52
 ---
 
-[Global Navigation Satellite System (GNSS)](https://en.wikipedia.org/wiki/Satellite_navigation) is the general concept used to identify those systems that allow user positioning based on a constellation of satellites. Specific GNSS are the well-known American [GPS](https://www.gps.gov/), the Russian [GLONASS](https://www.glonass-iac.ru/en/), or the forthcoming European [Galileo](https://www.gsc-europa.eu/galileo/what-is-galileo) and Chinese [BeiDou](http://www.beidou.gov.cn/). Governments around the World are spending billions of dollars of tax payers' money in building and maintaining an infrastructure with explicitly free civilian usage. However, users only have access to a small fraction of the full capability of GNSS in terms of accuracy, robustness and reliability of the provided service at a reasonable cost. Professional, full-featured receivers are expensive, and even in those cases the users have limited access (if any) to know exactly how position and time information were computed.
+[Global Navigation Satellite System (GNSS)](https://en.wikipedia.org/wiki/Satellite_navigation) is the general concept used to identify those systems that allow user positioning based on a constellation of satellites. Specific GNSS are the well-known American [GPS](https://www.gps.gov/), the Russian [GLONASS](https://glonass-iac.ru/en/about_glonass/), or the forthcoming European [Galileo](https://www.gsc-europa.eu/galileo/what-is-galileo) and Chinese [BeiDou](http://www.beidou.gov.cn/). Governments around the World are spending billions of dollars of tax payers' money in building and maintaining an infrastructure with explicitly free civilian usage. However, users only have access to a small fraction of the full capability of GNSS in terms of accuracy, robustness and reliability of the provided service at a reasonable cost. Professional, full-featured receivers are expensive, and even in those cases the users have limited access (if any) to know exactly how position and time information were computed.
 
 Some commercial, industrial and scientific applications of GNSS signals and data require non-standard features of the receiver. Access to intermediate signals is not possible in mass-market receivers, and professional equipment is costly and often a ‘black box’ that does not offer exact information about how signals are being processed. Since all the processing is done in [ASICs](https://en.wikipedia.org/wiki/Application-specific_integrated_circuit) or [SoCs](https://en.wikipedia.org/wiki/System_on_a_chip), one cannot change the implementation of a certain functional block and assess the impact of that change on the whole receiver performance.
 

_posts/2016-06-23-using-git.md

@@ -54,7 +54,7 @@ learning curve, but it worth it. A good reference is the freely available [Git
 Pro book](https://git-scm.com/book/en/v2), but there are plenty of good Git
 tutorials out there. If you have never used it, start from the [Git
 Basics](https://git-scm.com/book/en/v2/Getting-Started-Git-Basics) or this [free
-online course](https://lab.github.com/githubtraining/introduction-to-github).
+online course](https://github.com/skills/introduction-to-github).
 
 
 ## Git branches in GNSS-SDR