Difference between revisions of "Team:Newcastle/Developments"

 
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                 <h1>
 
                 <h1>
                    Developments
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                  Future Developments
 
                     <br><br>
 
                     <br><br>
 
                 </h1>
 
                 </h1>
  
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                <div class="home-content__buttons">
  
            <div class="home-content__scroll">
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                    <a href="#Sensors" class="smoothscroll btn btn--stroke">Sensors</a>
                <a href="#design" class="scroll-link smoothscroll">
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                    <a href="#Storage" class="smoothscroll btn btn--stroke">Data Storage</a>
                    <span>Scroll Down</span>
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                </div>
                </a>
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            </div>
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         </div> <!-- end home-content -->
  
 
     </section> <!-- end s-home -->
 
     </section> <!-- end s-home -->
  <!-- about
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<!-- about
 
================================================== -->
 
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    <section id='Powering' class="s-about">
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<section id='Sensors' class="s-services">
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<div class="row section-header has-bottom-sep" data-aos="fade-up">
 
             <div class="col-full">
 
             <div class="col-full">
                 <h1 class="display-1 display-1--light">Sensors</h1>
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                 <h2 class="display-1 display-1">Sensors</h2>
 
             </div>
 
             </div>
 
         </div> <!-- end section-header -->
 
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             <div class="col-full">
                 <p class="about-para">Adding multiple sensors is a good way to collect a range of data for analysis purposes. Such as; Humidity, temperature, CO^2, PH level sensors. Which would allow for a greater control over the subject plant, in our case Arabidopsis. Which however would lead into a problem with memory. Currently the system is run by a Arduino Uno which has Flash Memory 32 KB of which 0.5 KB used by, bootloader, SRAM 2 KB, EEPROM 1 KB. With the Lux sensor 80% of the flash memory is already taken. </p>
+
                 <p class="about-para">Adding multiple sensors is a good way to collect a range of data for analytical purposes, such as; humidity, temperature, CO<sub>2</sub>, PH level sensors. This also allows for greater control over the subject plant, in our case <i>Arabidopsis</i>. However, this would lead into a problem with memory. Currently the system is run by an Arduino Uno which has Flash Memory 32 KB of which 0.5 KB is used by; bootloader, SRAM 2 KB, EEPROM 1 KB. With the Lux sensor, 80 % of the flash memory is already taken. </p>
  
      <div class="row services-list block-1-3 block-tab-full">
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            <div class="col-block service-item" data-aos="fade-up">
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                <div class="service-icon">
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                    <i class="icon-paint-brush"></i>
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                </div>
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                <div class="service-text">
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                    <img src="https://static.igem.org/mediawiki/2018/a/a5/T--Newcastle--usb_schematic2.png" style="width:100%">
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                    <p style="text-align:center"><br>Figure 1.0; Schematic of a standard USB cable.</p>
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                 </div>
 
                 </div>
 
             </div>
 
             </div>
 
            <div class="col-block service-item" data-aos="fade-up">
 
                <div class="service-icon">
 
                    <i class="icon-paint-brush"></i>
 
                </div>
 
                <div class="service-text">
 
                    <img src="https://static.igem.org/mediawiki/2018/8/8e/T--Newcastle--wire.png" style="width:100%">
 
                    <p style="text-align:center"><br>Figure 1.1; Above is 4 exposed wires. Red is power, black is ground, and the white and green wires are the data lines. </p> 
 
                   
 
                </div>
 
            </div>
 
            <div class="col-block service-item" data-aos="fade-up">
 
                <div class="service-icon">
 
                    <i class="icon-paint-brush"></i>
 
                </div>
 
                <div class="service-text">
 
                    <img src="https://static.igem.org/mediawiki/2018/1/1d/T--Newcastle--arduino.png" style="width:100%">
 
                    <p style="text-align:center"><br>Figure 1.2; Schematic demonstrating how to power the Arduino and the LED's</p>
 
                   
 
                </div>
 
  
 
         </div>        <!-- end services-list -->
 
         </div>        <!-- end services-list -->
  
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    </section> <!-- end s-services -->
  
  
 
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  <!-- about
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      </div>
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        </div> <!-- end project-desc -->
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        <div class="row about-stats stats block-1-4 block-m-1-2 block-mob-full" data-aos="fade-up">
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            <div class="col-block stats__col ">
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                <h5>ROUGHLY</h5>
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                <div class="stats__count">2</div>
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                <h5>AMPS ARE PULLED</h5>
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                <h5>FOR THE WHOLE SYSTEM</h5>
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            </div>
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            <div class="col-block stats__col">
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                <h5>APPROXIMATELY</h5>
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                <div class="stats__count">70</div>
+
                <h5>KWH OF POWER ANNUALLY</h5>
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                <h5>USED TO POWER SYSTEM</h5>
+
               
+
            </div>
+
            <div class="col-block stats__col">
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                <h5>PROVIDES UP TO</h5>
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                <div class="stats__count">1700</div>
+
                <h5>LUX OF LIGHT</h5>
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                <h5>TO GROW SEEDS</h5>
+
            </div>
+
            <div class="col-block stats__col">
+
                <h5>CONTAINS</h5>
+
                <div class="stats__count">120</div>
+
                <h5>INDIVIDUALLY ADDRESSABLE</h5>
+
                <h5>LOW-POWER LED'S</h5>
+
            </div>
+
 
+
        </div> <!-- end about-stats -->
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    </section> <!-- end s-about -->
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================================================== -->
 
================================================== -->
  
 
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  <section id='Storage' class="s-services">
  <section id='Control' class="s-services">
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         <div class="row section-header has-bottom-sep" data-aos="fade-up">
 
         <div class="row section-header has-bottom-sep" data-aos="fade-up">
 
                 <div class="col-full">
 
                 <div class="col-full">
 
                             <h3 class="subhead"></h3>
 
                             <h3 class="subhead"></h3>
                 <h1 class="display-1">Data Storage</h1>
+
                 <h2 class="display-1">Data Storage</h2>
 
             </div>
 
             </div>
 
         </div> <!-- end section-header -->
 
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                 <div class="col-full">
 
                 <div class="col-full">
  
                   
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  <p class="about-para">In order to store data from the system the Arduino needs a host shield. The ‘Mini Micro 3.3V’ would be suitable and there are plenty of forums online detailing the application of this device. [1] </p>
                  <p style="font-size:100%">In order to store data from the system the arduino needs a host shield. The ‘Mini Micro 3.3V’ would be suitable and there is plenty of forums online detailing the application of this device. [1] </p>
+
<p style="font-size:100%">With a memory stick attached, the system can record the data every hour. Later this can then downloaded onto a laptop and plotted showing if there is any fluctuations. Unfortunately this means we have to upgrade the Arduino model so we have enough memory to store the code for the extra sensors and the USB stick. There is a number of models that have more storage, Arduino Due has 512 KB flash memory and 96 KB SRAM. Which is more than enough for our project. </p>
+
  
  
             
+
              <p class="about-para">With a memory stick attached, the system can record the data every hour. Later this can be downloaded onto a laptop and plotted to show if there are any fluctuations. Unfortunately, this means we have to upgrade the Arduino model, so we have enough memory to store the code for the extra sensors and the USB stick. There are a number of models that have more storage, Arduino Due has 512 KB flash memory and 96 KB SRAM. This is more than enough for our project.</p>
                </div>
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            </div>
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        <div class="row services-list block-1-2 block-tab-full">
 
  
            <div class="col-block service-item" data-aos="fade-up">
 
                <div class="service-icon">
 
                    <i class="icon-paint-brush"></i>
 
                </div>
 
                <div class="service-text">
 
                    <img src="https://static.igem.org/mediawiki/2018/b/ba/T--Newcastle--WC230718.png">
 
                    <p style="text-align:center"><br>The engineers, hard at work trying to troubleshoot issues with the system.</p>
 
                   
 
 
                      
 
                      
 
                 </div>
 
                 </div>
 
             </div>
 
             </div>
  
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                    <img src="https://static.igem.org/mediawiki/2018/thumb/e/e5/T--Newcastle--Hydroponicssystem.jpeg/800px-T--Newcastle--Hydroponicssystem.jpeg">
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<!-- PI's
                    <p style="text-align:center"><br>The finished product, set to a rainbow function that cycles through various wavelengths of light</p>
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    ================================================== -->   
                   
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    <section id='team' class="s-services">
                   
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                </div>
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<br>
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<h3 class="subhead"></h3>
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                <h1 class="display-2">References & Attributions</h1>
 
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<p class="about-para"><font size="3"><b>Attributions: Luke Waller, Umar Farooq</b></p>
 +
 
 +
<p class="about-para"><font size="3"><b>1.</b> Ardiuno, 23 Aug 2008; 'https://store.arduino.cc/arduino-pro-mini'</font></p>
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{{Newcastle/footer}}
 
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Latest revision as of 22:52, 17 October 2018

Alternative Roots/Developments

Alternative Roots

Future Developments

Sensors

Adding multiple sensors is a good way to collect a range of data for analytical purposes, such as; humidity, temperature, CO2, PH level sensors. This also allows for greater control over the subject plant, in our case Arabidopsis. However, this would lead into a problem with memory. Currently the system is run by an Arduino Uno which has Flash Memory 32 KB of which 0.5 KB is used by; bootloader, SRAM 2 KB, EEPROM 1 KB. With the Lux sensor, 80 % of the flash memory is already taken.

Data Storage

In order to store data from the system the Arduino needs a host shield. The ‘Mini Micro 3.3V’ would be suitable and there are plenty of forums online detailing the application of this device. [1]

With a memory stick attached, the system can record the data every hour. Later this can be downloaded onto a laptop and plotted to show if there are any fluctuations. Unfortunately, this means we have to upgrade the Arduino model, so we have enough memory to store the code for the extra sensors and the USB stick. There are a number of models that have more storage, Arduino Due has 512 KB flash memory and 96 KB SRAM. This is more than enough for our project.





References & Attributions

Attributions: Luke Waller, Umar Farooq

1. Ardiuno, 23 Aug 2008; 'https://store.arduino.cc/arduino-pro-mini'