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USC Computer Science Technical Reports, no. 732 (2000)
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USC Computer Science Technical Reports, no. 732 (2000)
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! " # # $ % & ’ " ( " $ )* + , ’ -. /01 - 2 1 , " + + 3 Æ , , - 1 4 5 , / 2 ! ! 5 " 6 " , ! % " , " ($ )* ! ($ 7* ! , Æ " !, " ($ 8* " ! % % " Æ 9 ’ % 3% 39 :;< = Æ 3 > 3 :); = ? ! >@ >& $ @ A< ;) B C $> B D6$ 9 # # # $E ( * B , ( * $ , :)< = 9 5 & " " $ 0 0 + # Æ# 9 ( * , > :)< = @ Æ :)< = Æ % % ( * - 1 - 1# # " # # " % ! 0 ! 6 Æ > ( ) * 3 " ( * " ’ -@ "1 . # ! 4 $ 7 " @ ’ " $ - 1 ! " ! ’ " $ Æ " % ( * - 1 ( * @ F B ; " # $ )7 $ " ! + ($ 8* $ )7 ( " $ 7) *’ ! " B " ? D6$ " B ( $ 77 *’ # ! $ %# && D " B B Sink Event Source Interests Sink Event Source Gradients Sink Event Source ! " #$ G ( * ( * ( :; =* B $ 7; G ( * ! D $ " ;< ;< " ? " ;<< ? B " ? " ( ; * $ 78 ! " # " $ ’ ! && && ’ &(& 9 % @ @ ( * G + " " " " @ " , " " ! ( " % & ’ " * " ; B , " @ " H<);; 3 > :A = 9 :;< = " 5 " B " $ 77 ! B ! D (B 7* , F ? $ 8 , :;7 = B ( $ 77* B " B ) F " 4 " B ;(* , ! Sink Event Source Gradients % &" $ ’ " (" &( "" ) ( " "$ - 1 $ . , ($ 78* ($ 77* " 3 " ! B ;(* (B 7* ( * - 1 G :I= + G G 3 B -> 1 . ’ , ( , ( * " 9F ? " B ! " , ; ( $ 78* ’ # ! $ %# && " " " + 5 9 5 ! ) * $ + & ,# ’(- # ’ & , . ( $ 78* B ;<< ( * J< " ( " * & (B 7* " $ 88 " " (; * + - 1 , ( * + ( *’ ! &&(# ’ &(& ! B 5 " ( -F 1 * . 0 B " ( $ 8* ! . / 0 Æ 1 *# *( " + ( , ( - ( & * ( & ) " ( " ) * , ( " ) ." ) / ( # " " ) ." && . ( + & ) " * "( ((( + ( + ( ( ." " . (" & ’() " *( *# , Sink Event Source Gradients % " 0 " . "$ 1 " 0 (" & . . "(" $ (B 8 * , ? , . 3 (B 7* ? , " G B ( ! 2 * + ! ! B , % + ( * $ 8 ) $ Æ B " + $" , Æ B J 3 ( "* . 5 5 , ( * 5 Æ E G Sink Event A B C D % $ $ ! B K , ! # , Event Source Sink X Sink Y % 0$ $ . > 4 " ! . * / 5 ( * > B A , , ! # ( * % # " @ ( "* + + , ! Sink Event Source Gradients C % & / ($ # + " + B ? -1 $ -1 6 @ G" " $ , " , B 6 % . , -1 . , " F $ ! 0 ( * ( :J=* . ? Æ + . Æ , + Æ B ! * ! ! % ! % ! "! "# $ ! ! :)= + ’ 6 % F ( * 4 # # @ F 3 > $ ! % ’ " ! % 7 ! @ G ( , * :8= % " % " " J< )J< J< + J< " ;K< ;K< , @ 8< + % , ! " " % + % B % " ! ;K 3 H<);; 3 > + 3 > 3 > Æ 3 3 > , E $L> $ :)< = 9F ? 3 3 > 9 H<);; :;) = ! 7J! ;<M (7IJ!* JM (KK B " " " A< A< , " $ " @ J< @ K8 7K J ;J ! ) ( * ( * % &% + " % ’ F B ? " Æ F ! E + 6 ! B H(* % + F Æ Æ B " K<M " " " " ! " " Æ 0 B # # $ 8 0 0.002 0.004 0.006 0.008 0.01 0.012 0.014 0.016 0.018 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size Diffusion Omniscient Multicast Flooding $ 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0 50 100 150 200 250 300 Delay (secs) Network Size Diffusion Omniscient Multicast Flooding $ * # - ( $ , , $ " ( * > ( * B H(* % " " . F 3 > ’ 3 > B 3 > + 3 3 > F B ( * $ B " " 7< " , B ( -1 * ! ! % 5 + ;< )< B - 1 @ (B I(** )<M (B I(** 3 " , 5 , ! 9 0 0.001 0.002 0.003 0.004 0.005 0.006 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size No node failure 10 % simultaneous node failures 20 % simultaneous node failures $ 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0 50 100 150 200 250 300 Delay (secs) Network Size No node failure 10 % simultaneous node failures 20 % simultaneous node failures $ 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 0 50 100 150 200 250 300 Event Delivery Ratio Network Size No node failure 10 % simultaneous node failures 20 % simultaneous node failures 9 : #$ ’ # 5 Æ B Æ E $ 8) B ;< J " " 7 + % ! ! 0 0.005 0.01 0.015 0.02 0.025 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size with suppression without suppression #2 $ " , " " B ;; 5 ( * H<);; 3 > Æ 3 > ( * ( * 3 > , 0 0.002 0.004 0.006 0.008 0.01 0.012 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size With Negative Reinforcement Without Negative Reinforcement () 2 $ % $ ($ 8)* :;) = ! $ 8) N ! ’ ;K! ;)! ;;J! B ;) F % % 0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size Diffusion Omniscient Multicast Flooding "(" . 2 ( Æ $ J . 0 ! $ 8) )JM B ;7 5 Æ 5 Æ . F B Æ F 9 3 > ! , B " H<M ( * @ " ! $ 8) " B 0 0.0005 0.001 0.0015 0.002 0.0025 0.003 0.0035 0.004 0.0045 0.005 0 50 100 150 200 250 300 Average Dissipated Energy (Joules/Node/Received Data Pkt) Network Size Diffusion Omniscient Multicast Flooding 0 ( Æ $ ( $ ’ " Æ @ % % B 3 > . F " , ! :)J = 4, @ , 3 !$ :); = 6 :7= !$ G " G % + 6 G Æ " :;8 = $ " F Æ $ :)8 = ( * " G ( Æ * + " @ " :J )7 )) = , ’ Æ " $ " :;; ;I ;H = + :;H = % $ 7J 3 , , :;K = , % , :;7 = :K= Æ F G :I = :H = ( * % :;J ;A = % " B ! :)K = % , ! " # # # G" . Æ % " 5 % ! + @ Æ 7 $ 345 62 7 " . 8 9 :0" ; 1 $ <" *( ’( $ ! ( 4=> 4 " 4$ ’ 35 :66 1 : *& " 7 ?) + + , 9 0 9 " 9 ;" 9 , 9( " ? ) 2 8 6 , " ? @ " A B 9& A * C $ )( 2 . 0 "$ < " 2& ) " " 4$ ) & 4 777 $ 3D5 +$ : *$ 0 ;$ 7) $ 9 $ ; *$ 10$ ,E 7 & & ’ . 0($ FGH I& 4$ 35 ;$ : " *$ $ 8 *$ :$ ;" A$2$ 9 ;$ ; ") $ , 29 29 ’ . 0 ( , $ " # $ % &" ’()* * ( 4==$ 35 $ 7$ *( *$ 7 *$ + @$ ;& $ 1 1$ $ <" , " 2 2 ($ + % FH 4$ 345 <" : " % $ : " )4$: !$ " E...$& "$ 4$ 3445 *$ :$ ;" *$ $ 8$ * ( 2" ’ . 0$ <$ 0 9$ ?2 " ( 4GD>4=4$ ? . ,&" 4$ 345 ;$ ?$ ’ ’% 4$ < ) , . *2 !$ $ 34D5 A (2: ? ’ 9$ @ $ 1 2 2 ( F1H & 9 ’ . 0$ # $ % & ’()* *2 44D 4$ 345 " , 0$ 29 I * * @ ( F I* @H$ 2* ’ ) & 4$ 2 22 )2$K$ 35 %$ , $ ?$ ’ . 0$ " $ < $ 345 %$ , $ ? 1$ 9$ $ 2 ( ’ . 0 $ & & 4=$ 35 " . I. 9 ; : 1 "0 8$ 1 :( < 2 ’ . 0$ < " 9,122DG 9.2 , 0 1& : 4$ 3D5 *)0 & , * " ;" "$ 1(E 2 ( * ’ . 0$ # - . &-"(,* ’( ; ( 4$ 35 $ $ < ($ <" " : "($ / + 0 1 &2*3 2 FDHED> 4G$ 3G5 $ $ <" " 4 $ . & 44$ 35 1$ C"( $ " $ + @$ ;& ?$ ’( $ $ ) & "(E < . ’. %& "( "$ + 4 ; 4=$ (
Abstract (if available)
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Description
Chalermek Intanagonwiwat, Ramesh Govindan, and Deborah Estrin. "Directed diffusion: A scalable and robust communication paradigm for sensor networks." Computer Science Technical Reports (Los Angeles, California, USA: University of Southern California. Department of Computer Science) no. 732 (2000).
Asset Metadata
Creator
Estrin, Deborah
(author),
Govindan, Ramesh
(author),
Intanagonwiwat, Chalermek
(author)
Core Title
USC Computer Science Technical Reports, no. 732 (2000)
Alternative Title
Directed diffusion: A scalable and robust communication paradigm for sensor networks (
title
)
Publisher
Department of Computer Science,USC Viterbi School of Engineering, University of Southern California, 3650 McClintock Avenue, Los Angeles, California, 90089, USA
(publisher)
Tag
OAI-PMH Harvest
Format
15 pages
(extent),
technical reports
(aat)
Language
English
Unique identifier
UC16269338
Identifier
00-732 Directed Diffusion A Scalable and Robust Communication Paradigm for Sensor Networks (filename)
Legacy Identifier
usc-cstr-00-732
Format
15 pages (extent),technical reports (aat)
Rights
Department of Computer Science (University of Southern California) and the author(s).
Internet Media Type
application/pdf
Copyright
In copyright - Non-commercial use permitted (https://rightsstatements.org/vocab/InC-NC/1.0/
Source
20180426-rozan-cstechreports-shoaf
(batch),
Computer Science Technical Report Archive
(collection),
University of Southern California. Department of Computer Science. Technical Reports
(series)
Access Conditions
The author(s) retain rights to their work according to U.S. copyright law. Electronic access is being provided by the USC Libraries, but does not grant the reader permission to use the work if the desired use is covered by copyright. It is the author, as rights holder, who must provide use permission if such use is covered by copyright.
Repository Name
USC Viterbi School of Engineering Department of Computer Science
Repository Location
Department of Computer Science. USC Viterbi School of Engineering. Los Angeles\, CA\, 90089
Repository Email
csdept@usc.edu
Inherited Values
Title
Computer Science Technical Report Archive
Coverage Temporal
1991/2017
Repository Email
csdept@usc.edu
Repository Name
USC Viterbi School of Engineering Department of Computer Science
Repository Location
Department of Computer Science. USC Viterbi School of Engineering. Los Angeles\, CA\, 90089
Publisher
Department of Computer Science,USC Viterbi School of Engineering, University of Southern California, 3650 McClintock Avenue, Los Angeles, California, 90089, USA
(publisher)
Copyright
In copyright - Non-commercial use permitted (https://rightsstatements.org/vocab/InC-NC/1.0/