788.11j presentation “ fire wx net ” presented by engy ashraf yehia
TRANSCRIPT
Presented by Presented by
Engy Ashraf Yehia Engy Ashraf Yehia
The Main Idea
Provides the firefighting community the ability to safely, easily measure, view fire & weather conditions over a wide
range of locations and elevations within forest fires. The designed system uses integrated a multi hop sensor
network to provide environmental data integrated web-enabled surveillance cameras to provide visual data.
Fire Wx Net
consisted of 5 long range links, 3 sensor networks consisting of a total of 13 nodes, 5 wireless access points, and 2 web cameras.
The Main Achievements
built a system that successfully presented an elevational gradient of environmental conditions in wild land fire environments. This previously unattainable information will help fire behavior analysts make better predictions about fire conditions and create a ’more aware’ environment in the fire community, which will in turn help make fighting forest fires safer in the future.by using wireless technology &sensor networks
System design & implementation
1.Network Setup2.Backhaul Network Tier2.1Hardware 2.2Power3.Weather Network Hardware3.1Base Station 3.2Sensor Nodes 4.Weather Network Software
System design &implementation
4.Weather Network Software4.1 Deployment Issues 4.2Deployment Mechanism4.3Routing 4.4Duty Cycling and Time
Synchronization 4.5Fault Tolerance 5.Gathering the Data
The Challenges
There are hard application need to drove the system1.Weather Data 2.Visual Data 3.Elevational Gradient in Rugged Terrain4.Long Range Remote Monitoring 5.Power Efficient 6.Simple and Robust 7.Low Cost 8.Portable
Pictures
F ig u re 3: O u r n e tw o rk se tu p re la tive to a few of th e m a jo r f ire s in th e a rea (sh ow n as d a rke ne d a reas ). L o c a tio n s a n d e q u ip m e nt w ere as fo llow s: A ) In c id e nt C o m m a n d : B ack h au l L in k , W A P, S a te ll ite B ) U S F S D ist r ic t O ffice : B ack h au l L in k , W A P C ) B o u lder Peak : B ackh a u l L in ks(3 ), W A P D ) H e ll’s H a lf A c re : B a ck h a u l L in k s (3 ) , W A P, W e b c a m , S e n so r N e t E ) K it C arson : B ack ha u l L in k , WA P, S enso r N e t F ) S p o t M o u nta in : B ackh au l L ink , WA P, W e b c a m , S e n so r N e t
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F ig u re 4: S ys te m O ve rv ie w : R a d io s w ith d ire c tio n a l a nte n n a s w e re u se d a t e a ch p e a k a n d a t th e b a sec a m p to re lay d a ta fro m o u r se n so r n e tw o rk a n d w e b c a m .
The Backhaul link set up on Boulder Peak. To the near side is an Access5830 with a directional antenna. On the far side is a M900S connected to a Yagi antenna. Below are two of the solar panels we used to provide power.
Pictures
Figure 6: A block diagram of our weather network. The webcam, Soekris, and trango radio all con- nected to the switch via wired ethernet. The sensor node connected to the Soekris via a USB-to-serial cable.
Pictures
(a) An enclosure we b u ilt for our sensor n o d es . The open b o ttom , vented ceiling, and s lo tte d walls allowed the sensors to a ccu ra te ly re cord co n d it io n s.
(b) Nodes were a tta che d to the ceiling with in - d ustria l velcro. All sensors faced down to w a rd s the open b o tto m .
Pictures
(a) Unique yield per node per day (b) To ta l yield per node per day
F ig u re 12: Pa cke t y ie ld s f ro m o u r d e p loy m e nt
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(a) Network to p o lo g y a t Hell’s Half A cre
(b) Network topology a t K it C a rso n
Innovation
I like usage of wireless network topology & sensor network in weather application. It is an good subject and full of Thoughts