finished kris

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alicestrt 2021-02-02 15:47:22 +01:00
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@ -126,7 +126,7 @@ Delay-tolerant networking can take surprising forms, especially when they take a
Examples are DakNet and KioskNet, which use buses as data mules.[^30] [^31] [^32] [^33] [^34] In many developing regions, rural bus routes regularly visit villages and towns that have no network connectivity. By equipping each vehicle with a computer, a storage device and a mobile WiFi-node on the one hand, and by installing a stationary WiFi-node in each village on the other hand, the local transport infrastructure can substitute for a wireless internet link.<sup>11</sup></p> Examples are DakNet and KioskNet, which use buses as data mules.[^30] [^31] [^32] [^33] [^34] In many developing regions, rural bus routes regularly visit villages and towns that have no network connectivity. By equipping each vehicle with a computer, a storage device and a mobile WiFi-node on the one hand, and by installing a stationary WiFi-node in each village on the other hand, the local transport infrastructure can substitute for a wireless internet link.<sup>11</sup></p>
<img id="kris_7" src="content/images/images_kris/7.png"></img> <img id="kris_7" src="content/images/images_kris/7.png"></img>
<p> <p>
Outgoing data (such as sent emails or requests for webpages) is stored on local computers in the village until the bus comes withing range. At this point, the fixed WiFi-node of the local computer automatically transmits the data to the mobile WiFi-node of the bus. Later, when the bus arrives at a hub that is connected to the internet, the outgoing data is transmitted from the mobile WiFi-node to the gateway node, and then to the internet. Data sent to the village takes the opposite route. The bus -- or data -- driver doesn't require any special skills and is completely oblivious to the data transfers taking place. He or she does not need to do anything other than come in range of the nodes.<sup>30</sup><sup>31</sup></p> Outgoing data (such as sent emails or requests for webpages) is stored on local computers in the village until the bus comes withing range. At this point, the fixed WiFi-node of the local computer automatically transmits the data to the mobile WiFi-node of the bus. Later, when the bus arrives at a hub that is connected to the internet, the outgoing data is transmitted from the mobile WiFi-node to the gateway node, and then to the internet. Data sent to the village takes the opposite route. The bus -- or data -- driver doesn't require any special skills and is completely oblivious to the data transfers taking place. He or she does not need to do anything other than come in range of the nodes.<sup>30</sup> <sup>31</sup></p>
<p> <p>
In a data mules network, the local transport infrastructure substitutes for a wireless internet link. In a data mules network, the local transport infrastructure substitutes for a wireless internet link.
The use of data mules offers some extra advantages over more "sophisticated" delay-tolerant networks. A "drive-by" WiFi network allows for small, low-cost and low-power radio devices to be used, which don't require line of sight and consequently no towers -- further lowering capital costs and energy use compared to other low-tech networks.<sup>30</sup> <sup>31</sup> <sup>32</sup> </p> The use of data mules offers some extra advantages over more "sophisticated" delay-tolerant networks. A "drive-by" WiFi network allows for small, low-cost and low-power radio devices to be used, which don't require line of sight and consequently no towers -- further lowering capital costs and energy use compared to other low-tech networks.<sup>30</sup> <sup>31</sup> <sup>32</sup> </p>
@ -142,7 +142,7 @@ Browsing and searching the web requires more adaptations. For example, most sear
Many internet applications could be adapted to intermittent networks, such as webbrowsing, email, electronic form filling, interaction with e-commerce sites, blogsoftware, large file downloads, or social media. Many internet applications could be adapted to intermittent networks, such as webbrowsing, email, electronic form filling, interaction with e-commerce sites, blogsoftware, large file downloads, or social media.
Some DTN-enabled browsers download not only the explicitly requested webpages but also the pages that are linked to by the requested pages.<sup>30</sup> Others are optimized to return low-bandwidth results, which are achieved by filtering, analysis, and compression on the server site. A similar effect can be achieved through the use of a service like Loband (http://www.loband.org/loband/), which strips webpages of images, video, advertisements, social media buttons, and so on, merely presenting the textual content.<sup>26</sup></p> Some DTN-enabled browsers download not only the explicitly requested webpages but also the pages that are linked to by the requested pages.<sup>30</sup> Others are optimized to return low-bandwidth results, which are achieved by filtering, analysis, and compression on the server site. A similar effect can be achieved through the use of a service like Loband (http://www.loband.org/loband/), which strips webpages of images, video, advertisements, social media buttons, and so on, merely presenting the textual content.<sup>26</sup></p>
<p> <p>
Browsing and searching on intermittent networks can also be improved by local caching (storing already downloaded pages) and prefetching (downloading pages that might be retrieved in the future).<sup>26</sup> Many other internet applications could also be adapted to intermittent networks, such as electronic form filling, interaction with e-commerce sites, blogsoftware, large file downloads, social media, and so on.<sup>11</sup><sup>30</sup> All these applications would remain possible, though at lower speeds.</p> Browsing and searching on intermittent networks can also be improved by local caching (storing already downloaded pages) and prefetching (downloading pages that might be retrieved in the future).<sup>26</sup> Many other internet applications could also be adapted to intermittent networks, such as electronic form filling, interaction with e-commerce sites, blogsoftware, large file downloads, social media, and so on.<sup>11</sup> <sup>30</sup> All these applications would remain possible, though at lower speeds.</p>
<p class="subheading"> <p class="subheading">
Sneakernets </p> Sneakernets </p>
<p>Obviously, real-time applications such as internet telephony, media streaming, chatting or videoconferencing are impossible to adapt to intermittent networks, which provide only asynchronous communication. These applications are also difficult to run on synchronous networks that have limited bandwidth. Because these are the applications that are in large part responsible for the growing energy use of the internet, one could argue that their incompatibility with low-tech networks is actually a good thing (see the previous article https://www.lowtechmagazine.com/2015/10/can-the-internet-run-on-renewable-energy.html).</p> <p>Obviously, real-time applications such as internet telephony, media streaming, chatting or videoconferencing are impossible to adapt to intermittent networks, which provide only asynchronous communication. These applications are also difficult to run on synchronous networks that have limited bandwidth. Because these are the applications that are in large part responsible for the growing energy use of the internet, one could argue that their incompatibility with low-tech networks is actually a good thing (see the previous article https://www.lowtechmagazine.com/2015/10/can-the-internet-run-on-renewable-energy.html).</p>

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