dictionary matching with one gap
DESCRIPTION
Dictionary Matching with One Gap. Amihood Amir, Avivit Levy, Ely Porat and B. Riva Shalom. CPM 2014 - Moscow. ! MIND THE GAP . Outline. The DMG( Dictionary Matching with one Gap ) Problem Motivation Previous Work Bidirectional Suffix Trees Solution Lookup Table addition - PowerPoint PPT PresentationTRANSCRIPT
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DICTIONARY MATCHING
WITH ONE GAP
Amihood Amir, Avivit Levy ,Ely Porat and B. Riva
Shalom CPM 2014
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CPM 2014
CPM 2014 - MOSCOW
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CPM 2014
!MIND THE GAP
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OUTLINEThe DMG(Dictionary Matching with one
Gap ) ProblemMotivationPrevious WorkBidirectional Suffix Trees SolutionLookup Table additionOpen Problems
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THE DMG PROBLEMA gapped pattern is a pattern P of the form:
P1{1,1} P2{2,2}… Pk-1{k-1,k-1}Pk
Each Pj is over alphabet ,{j,j} is a sequence of at least j and at most j don’t cares = @.
Example: aba{3,6}cbb aba @@@cbb aba@@@@cbb aba@@@@@cbb aba@@@@@@cbb
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THE DMG PROBLEM The DMG problem is:Preprocess: A dictionary D of d gapped
patterns P1,…, Pd over alphabet .
Query: A text T of length n over alphabet .
Output: all locations in T where a dictionary gapped pattern ends.
We focus on DMG with a single gap.
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EXAMPLEDictionary: P1 = aba {3,6} cbb
P2 = ab {3,6} bbac
P3 = aa {3,6} ac
Query 1 2 3 4 5 6 7 8 9 10 11
text: a b a a b a c b b a c
P1,1 P1,2P2,1P2,2P3,1 P3,2
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First =1≤i≤d{ Pi,1 } Second=1≤i≤d{ Pi,2 }
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MOTIVATIONComputational BiologyA renew interest due to cyber security. Network intrusion detection systems
perform protocol analysis, content searching and content matching to detect harmful software.
Malware may appear in several packets!
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PREVIOUS WORKGapped pattern matching problem
was studied for a few decades,eg. [Myers, JACM 1992],[Navaro&Raffinot, Algorithmica 2004],[Bille&Thorup, ICALP 2009] , [Bille&Thorup SODA 2010], [Morgante et al., JCB 2005], [Rahman et al., COCOON 2006], [Bille et al., TCS 2012]
DMG problem not studied enough ![Kucherov&Rosinovich,TCS 1997],[Zhang et al., IPL 2010]-no bounds on the length of the gap.
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BI-DIRECTIONAL SUFFIX TREES ALGORITHM
Gapped pattern: a b{3,6}b b a c
Query: a b a a b a c b b a c
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BI-DIRECTIONAL SUFFIX TREES ALGORITHMIdea: view as [Amir et al., JAL 2000]
Gapped patterns:P1= a b a{3,6}a b a c P2= a b a{3,6}b b a P3= a b{3,6}b a aQuery:
a b a a b a c b b a cUse suffix tree TS of Second
Use suffix tree TFR of
FirstR
gap
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BI-DIRECTIONAL SUFFIX TREES ALGORITHMFor each text location l
Insert tl tl +1…tn to TS (the node h)to find labels on the path to h.
For f= l --1 to l --1Insert tftf-1…t1 to TFR (the node g)to find labels on the path to g.
Output intersection (for end locations).
Finds Pi,2 starting at location l.
Finds Pi,1 ending at location f.
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BI-DIRECTIONAL SUFFIX TREES ALGORITHM - INTERSECTIONPatterns: {(1,4),(2,9),(3,7),…,(6,5),…}
TSTFR
Range:[1,9]
Range:[2,7]
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BI-DIRECTIONAL SUFFIX TREES ALGORITHM (CONTINUED)Intersection via range queries:
Range:[2,7]
Range: [1,9]
(1,4)
(3,7)
(6,5)
(8,8)
(2,9)
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TIME & SPACE Preprocessing Time:Dictionary segments suffix tree and reverse
suffix tree: O(|D|)Preprocessing grid for range queries:
O(d log d). [Chan et al., SoCG 2011]
Preprocessing Space:Dictionary segments suffix tree and reverse
suffix tree: O(|D|)Space for grid:
O(d log d). [Chan et al., SoCG 2011]
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TIME & SPACE Query Time:For each end text location, we try every gap
size: a factor of .The number of range queries is the number of
vertical paths in a given path: O(log2 min{d, log |D|}).A range query costs: O(log log d+occ).
[Chan et al., SoCG 2011]Total: O(n()log log d log2 min{d, log |D|}+occ).
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g
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LOOKUP TABLE ALGORITHMIdea: Instead of using range queries in a
grid to compute the intersection, we use a pre-computed lookup table.
Enables intersection in O(occ) time.
Total query time becomes:O(n()+occ).
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LOOKUP TABLE ALGORITHMInter[g,h] = all i s.t. Pi,1
R appears on the path from the root of TFR till node g and Pi,2 appears on the path from the root of TS till node h.
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P1=(1,4), P2=(2,9), P3=(3,7), P4=(3,2), …,P6=(6,5), P7
=(9,6)Inter[ 3, 5 ]= {4}
g h
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LOOKUP TABLE ALGORITHMInter[g,h] = all i s.t. Pi,1
R appears on the path from the root of TFR till node g and Pi,2 appears on the path from the root of TS till node h.
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P1=(1,4), P2=(2,9), P3=(3,7), P4=(3,2), …,P6=(6,5), P7 =(9, 6)Inter[ 3, 5 ]= {4}
Inter[ 3, 7 ]= {3,4}g
h
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LOOKUP TABLE ALGORITHMInter[g,h] = all i s.t. Pi,1
R appears on the path from the root of TFR till node g and Pi,2 appears on the path from the root of TS till node h.
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P1=(1,4), P2=(2,9), P3=(3,7), P4=(3,2), …,P6=(6,5), P7
=(9,6)Inter[ 3, 5 ]= {4}Inter[ 3, 7 ]= {3,4}Inter[ 6, 7 ]= {3,4,6} g
h
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LOOKUP TABLE ALGORITHMInter[g,h] = all i s.t. Pi,1
R appears on the path from the root of TFR till node g and Pi,2 appears on the path from the root of TS till node h.
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P1=(1,4), P2=(2,9), P3=(3,7), P4=(3,2), …,P6=(6,5), P7
=(9,6)Inter[ 3, 5 ]= {4}Inter[ 3, 7 ]= {3,4}Inter[ 6, 7 ]= {3,4,6} Inter[ 9, 7 ]= {3,4,6} g h
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LOOKUP TABLE ALG.
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P1=(1,4), P2=(2,9), P3=(3,7), P4=(3,2),
…,P6=(6,5),P7 =(9,6)
Inter[3,5]= {4}Inter[3,7]= {3,4}Inter[6,7]= {3,4,7}
1
3:
1
9
6
.…2 5 6 7
2
:
--41--
--
6
3
--
4
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LOOKUP TABLE ALGORITHMPreprocessing:Time: Table can be computed using DP
in time O(d2 ovr + |D|) where ovr is the number of subpatterns including other subpattern as a prefix or suffix.
Space: O(d 2 + |D|).
Query time: O(n()+occ).
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OUR RESULTS Preprocessing time: O(d log d + |D|).
Space: O(d log d + |D|).Query time: O(n()log log d log2(min{d, log |D|} )+occ).
Preprocessing time: O(d2 ovr + |D|).Space: O(d 2 + |D|).Query time: O(n()+occ).
Bi-directional suffix trees & range queries
Bi-directional suffix trees & Lookup table
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OPEN PROBLEMSGeneralizing to k gapsReducing the dependency on the size
Scalability to different gap bounds in the dictionary
Online algorithm
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THANK YOU!
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