Team:Cornell/project/drylab/functional requirements

From 2012.igem.org

(Difference between revisions)

Latest revision as of 03:21, 27 October 2012

Functional Requirements

Scroll over each icon to find out more about the functional requirements for our device!

Continuous

Pollution events can be hard to spot, making discrete testing inadequate as well as expensive. Monitoring water quality is a 24 hour job.

Field Deployable

Industrial water monitoring is needed in remote and rugged terrain. In order to be applicable in these terrains, our device should be durable, water-proof. Being out in the field also means all food for bacteria and power for electronics must be provided by the device itself.

Remote

To collect data in isolated locations, wireless communication is essential. This requires digital conversion of signals from our bacteria, so that it can be transmitted to the user and accessed online.

Electrical Output

Our device needs to output signal that is practical and intuitive. Electrical signal is easy to sense, process, and convert to digital signal.

Long Term

To monitor water quality in a truly continuous fashion, our device must be able to sustain itself without maintenance for long periods of time. Frequent maintenance is impractical.

Safe

Releasing modified organisms into the environment is a threat to both human health and biodiversity. To be field-deployable, our device must integrate multiple safeguards against escape and gene transfer.

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 				<li class="divider"></li>
 				<li>
 					<a href="https://2012.igem.org/Team:Cornell/project/drylab">How It Works</a>
@@ Line 36: / Line 37: @@
 					<a href="https://2012.igem.org/Team:Cornell/project/drylab/status">Device Status</a>
 				</li>
-				<li>
-					<a href="https://2012.igem.org/Team:Cornell/project/drylab/3dmodel">3D Model</a>
-				</li>
 			</ul>
 		</div>
@@ Line 47: / Line 46: @@
 				</div>
 			</div>
+<div>
+<b>Scroll over each icon to find out more about the functional requirements for our device!</b>
+</div>
 			<div class="row last-ele overflow">
-				<div class="twelve columns overflow" style="position:relative;">
+				<div class="eight columns centered overflow" style="position:relative;">
 					<img class="inline" src="https://static.igem.org/mediawiki/2012/6/67/Charmander_hexagon.png">
-					<div class="func-rec-position" style="position:absolute;left:-60px;top:400px;">
+					<div class="func-rec-position" style="position:absolute;right:90px;top:50px;">
 						<div class="func-req-hover" >
-							<img src="https://static.igem.org/mediawiki/2012/b/bb/Charmander_long-term.png">
+							<img src="https://static.igem.org/mediawiki/2012/0/09/Charmander_continuous.png">
 						</div>
 						<div class="func-req-desc">
-							<h5 style="color:white;" class="centered">Long Term</h5>
+							<h5>Continuous</h5>
-							Hello.  My name Dylan Webster.  You Killed My father.  Prepare to die.  Bitch.
+							Pollution events can be hard to spot, making discrete testing inadequate as well as expensive. Monitoring water quality is a 24 hour job.
 						</div>
 					</div>
-					<div class="func-rec-position" style="position:absolute;right:-56px;top:400px;">
+					<div class="func-rec-position" style="position:absolute;right:-33px;top:272px;">
 						<div class="func-req-hover" >
 							<img src="https://static.igem.org/mediawiki/2012/2/2a/Charmander_field-deployable.png">
 						</div>
 						<div class="func-req-desc">
-							<h5 style="color:white;" class="centered">Field Deployable</h5>
+							<h5>Field Deployable</h5>
-							Hello.  My name Swati Sureka.  You Killed My father.  Prepare to die.  Bitch.
+							Industrial water monitoring is needed in remote and rugged terrain. In order to be applicable in these terrains, our device should be durable, water-proof. Being out in the field also means all food for bacteria and power for electronics must be provided by the device itself.
+						</div>
+					</div>
+					<div class="func-rec-position" style="position:absolute;right:90px;bottom:25px;">
+						<div class="func-req-hover" >
+							<img src="https://static.igem.org/mediawiki/2012/e/ea/Charmander_remote.png">
+						</div>
+						<div class="func-req-desc">
+							<h5>Remote</h5>
+							To collect data in isolated locations, wireless communication is essential. This requires digital conversion of signals from our bacteria, so that it can be transmitted to the user and accessed online.
+						</div>
+					</div>
+					<div class="func-rec-position" style="position:absolute;left:90px;bottom:25px;">
+						<div class="func-req-hover" >
+							<img src="https://static.igem.org/mediawiki/2012/1/14/Charmander_electrical-output.png">
+						</div>
+						<div class="func-req-desc">
+							<h5>Electrical Output</h5>
+Our device needs to output signal that is practical and intuitive. Electrical signal is easy to sense, process, and convert to digital signal.						</div>
+					</div>
+					<div class="func-rec-position" style="position:absolute;left:-35px;top:272px;">
+						<div class="func-req-hover" >
+							<img src="https://static.igem.org/mediawiki/2012/b/bb/Charmander_long-term.png">
+						</div>
+						<div class="func-req-desc">
+							<h5>Long Term</h5>
+							To monitor water quality in a truly continuous fashion, our device must be able to sustain itself without maintenance for long periods of time. Frequent maintenance is impractical.
+						</div>
+					</div>
+					<div class="func-rec-position" style="position:absolute;left:90px;top:50px;">
+						<div class="func-req-hover" >
+							<img src="https://static.igem.org/mediawiki/2012/f/f0/Charmander_safe.png">
+						</div>
+						<div class="func-req-desc">
+							<h5>Safe</h5>
+							Releasing modified organisms into the environment is a threat to both human health and biodiversity. To be field-deployable, our device must integrate multiple safeguards against escape and gene transfer.
 						</div>
 					</div>