$ U F K LW H F WX U H G H O D F R J Q LW LR Q H W LQ IR U P D WL R Q / H V O LP LW H V G X S D U D G LJ P H G H U H F K H U F K H Y LV X H OO H « L ’e sp ac e, l ’u lt im e fr o n ti èr e… » - J. T . K ir k D en is C o u si n ea u
,Q WU R G X F WL R Q R és u lt at s ty p iq u es / D F K D U J H Y J OH Q R P E U H G H V WL P X OL j W U D LW H U Y D U LH / H V U p S R Q V H V S R V LW LY H V V R Q W S OX V U D S LG H V T X H O H V U p S R Q V H V Q p J D WL Y H V / H V U p S R Q V H V Q p J D WL Y H V V ·D F F U R LV V H Q W G H X [ I R LV S OX V U D S LG H P H Q W T X H O H V U p S R Q V H V S R V LW LY H V Í 5 D WL R
C h a rg e
« N o n » « O u i »
Tem ps de ré po nse
F a ib le É le v ée
,Q WU R G X F WL R Q C o m p o sa n te s d e la r ec h er ch e v is u el le $ / ·D U F K LW H F WX U H G H U H F K H U F K H
5HFKHUFKHHQSDUDOOqOHSOXVLHXUVREMHWVjODIRLVYHUVXV 5HFKHUFKHVpULHOOHXQVHXOREMHWjODIRLV% / D U q J OH G ·D U U r W
([KDXVWLIMXVTX·jFHTXHWRXVOHVREMHWVDLWpWpWUDLWpVYHUVXV $XWRFHVVDQWMXVTX·jFHTXHO·REMHWUHFKHUFKpVRLWWURXYp/ H P R G q OH V p U LH O D X WR F H V V D Q W H V W OH S OX V p WX G Lp Í & / H S U R F H V V X V G ·L G H Q WL IL F D WL R Q
EDVHGHVWUDLWVFRPSRVDQWO·REMHWRXVXUO·REMHWGDQVVRQHQWLHU 7RXVOHVWUDLWVVRQWLOVQpFHVVDLUHVSRXUUHFRQQDvWUHO·REMHW" 7RXVOHVWUDLWVVRQWLOVpJDX[",Q WU R G X F WL R Q F ai ll it e d es a p p ro ch es c la ss iq u es & K D T X H F R P E LQ D LV R Q G H ^ $ % & ` G R Q Q H X Q P R G q OH S R V V LE OH & H S H Q G D Q W O H V U p V X OW D WV V H U p V X P H Q W WR X V S D U X Q U D WL R J p Q p U D OH P H Q W D X WR X U G H ± O R U V T X H O D W k F K H H V W D U G X H Í ,O \ D S OX V G H P R G q OH V T X H G H U p V X OW D WV / H V D Q D O\ V H V F OD V V LT X H V P R \ H Q Q H V G H V W H P S V G H U p S R Q V H V V R Q W WU R S O LP LW p H V ( 7 / D W k F K H F OD V V LT X H D Y H F X Q V H X O D II LF K D J H W H V W H V W WU R S U H V WU LF WL Y H
$ $ U F K LW H F WX U H G H O D U H F K H U F K H
$ $ U F K LW H F WX U H E x em p le
$ $ U F K LW H F WX U H T âc h e st an d ar d /HVVXMHWVRQWDSSULVjUHFRQQDvWUHFLEOHV /HVHUUHXUVVRQWWUqVUDUHVaGHIDXVVHVDODUPHVHWPRLQVGH GHFLEOHVPDQTXpHV /·DIILFKDJHWHVWFRQWLHQWRXVWLPXOLGRQWRXHVWXQHFLEOH 1RWH]TXHOHVFHUFOHVLQGLTXHQWROHVVWLPXOLYRQWDSSDUDvWUHQW
*
Point de fixation
Affichage test Temps de réponse mesurés depuis l’affichage des stimuli
Cercles indiquant où les stimuli vont apparaître/HVVXMHWVVRQWWUqVELHQ HQWUDvQpV
Co nd iti on st an dar d
(1
/3
es
sai
s)
$ $ U F K LW H F WX U H R és u lt at s su r le s m o y en n es a u x e ss ai s ⊕ ety ⇐ 6 X J J q U H X Q W U D LW H P H Q W V p U LH O D X WR F H V V D Q W ⇐ 6 X J J q U H X Q W U D LW H P H Q W S D U D OO q OH R X H [ K D X V WL I / H V G H X [ H [ WU r P H V G D Q V X Q H V H X OH H [ S p U LH Q F H
Co nd iti on st an dar d
T R m o y e n d a n s l a t â c h e s ta n d a rd R at io d es p en te s: 1 .9 8 : 1 ⊕
Mo ye nn e
R at io d es p en te s: 1 .1 8 : 1 ⊕
Mo ye nn e
C h a rg e
$ $ U F K LW H F WX U H R és u lt at s su r le s d is tr ib u ti o n s /DSUpVHQFHGHSOXVLHXUV PRGHVLPSOLTXHXQ WUDLWHPHQW ²6pULHOHW ²$XWRFHVVDQW ORUVGHVHVVDLV⊕ L es m o d es s o n t v is ib le s à ca u se d e l’ en tr aî n em en t (i ls s o n t v is ib le s se u le m en t ap rè s 2 0 s es si o n s) e t au ss i à ca u se d es st im u li q u i so n t tr ès d if fi ci le s (u n e lo u p e g ro ss is sa n te … )
Co nd iti on st an dar d
D is tr ib u ti o n d e s T R l o rs d e s e s s a is p o s it if s
Fr éq uen ce
3RXUTXRLOH UDWLRQ·HVWLO SDVGH"
% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W
% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W E x em p le : T ro u v ez l e p o in t n o ir
% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W R és u lt at s su r le s m o y en n es e t v ar ia n ce s ⊕
Co nd iti on st an dar d
T R m o y e n e t le u r v a ri a n c e d a n s l a t â c h e s ta n d a rd C
Mo ye nn e
⊕
Va ria nce
/HVYDULDQFHVSRXUOHVUpSRQVHVyVRQW pTXLYDOHQWHVDX[YDULDQFHV
⊕
/·DFFURLVVHPHQWGDQVOHWDX[G·HUUHXUVFLEOHV PDQTXpHVVXJJqUH ²8QWDX[pTXLYDOHQWG·HVVDLVGHYLQpV(' ²/HV('VRQWSOXVIUpTXHQWVTXDQGO·HVVDLGXUH SOXVORQJWHPSV 6XJJqUHXQHUHFKHUFKHTXDVLH[KDXVWLYH4( &HV´FRUUHFWLRQVµ UpGXLVHQWOHUDWLRj SDUFHTXH O·HIIHWHVWSOXVLPSRUWDQW SRXUOHVJUDQGHV FKDUJHVHWOHVHVVDLVyEss ais m an qu és
C h a rg e
?
Fr éq uen ce
?
Co nd iti on st an dar d
% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W A n al y se s d e d is tr ib u ti o n s D is tr ib u ti o n d e s T R l o rs d e s e s s a is p o s it if s
/HVXMHW%SUHQGVRQWHPSV SRXUGpPDUUHUODUHFKHUFKH /HPrPHGpFDODJHGDQVOHV GLVWULEXWLRQVDpWpREVHUYp SDU+RFNOH\ /DUqJOHG·DUUrW4(HWODUqJOH GHGpSDUWH[KDXVWLYH SUpGLVHQWXQUDWLRGHP ré p ar e F o cu s C ib le ? N o n
O u i P ré p ar e F o cu s C ib le ? N o n
O u i x D
& ,G H Q WL IL F D WL R Q
& ,G H Q WL IL F D WL R Q E x em p le : Q u ’e st -c e?
& ,G H Q WL IL F D WL R Q L es s ti m u li ( V W F H T X H O H V W U D LW V G LD J Q R V WL F V V R Q W X WL OL V p V G D Q V O D U H F K H U F K H Y LV X H OO H "
&LEOHV'LVWUDFWHXUV& H V V WL P X OL V R Q W WU q V G LI IL F LO H V
²/HVWUDLWVQHVHWRXFKHQWSDVSDVG·pPHUJHQFH ²/DVLPLODULWpHVWFRQWU{OpHOHVVLPLODULWpVLQWUDHWLQWHUFDWpJRULH VRQWpJDOHV ²/DGLDJQRVWLFLWpGHVWUDLWVHVWFRQWU{OpHXQHFRQMRQFWLRQGHGHX[ WUDLWVGLVWLQJXHQWOHVFLEOHVGHVGLVWUDFWHXUV& ,G H Q WL IL F D WL R Q P ré se n ta ti o n p ar t ra it ( a) 3 U p V H Q WD WL R Q U D S LG H
,6,HVWHWPVS D U W U D LW 5 6 ) 3 / H V W U D LW V G LD J Q R V WL F V V R Q W S U p V H Q Wp V V R LW D X G p E X W G H O D V p T X H Q F H V R LW j O D I LQ
*Co nd iti on 3
(1
/3
es
sai
s)
& ,G H Q WL IL F D WL R Q P ré se n ta ti o n p ar t ra it ( b ) 6LOHVWUDLWVGLDJQRVWLFVVRQWSUpVHQWpVjODILQGHODVpTXHQFHOHVVXMHWV DWWHQGHQWTXHWRXWHVOHVLPDJHVVRLHQWDSSDUXHV 6LOHVWUDLWVFRPSRVDQWODFRQMRQFWLRQVRQWSUpVHQWpVDXGpEXWOHVVXMHWV LJQRUHQWODGHUQLqUHLPDJH ⇒
/HVWUDLWVLQIRUPDWLIVVRQWXWLOLVpVSDUOHVVXMHWV
T ra it s d ia g n o s ti c a u d é b u t C ib le p ré s e n te C h a rg e
~ t o u te s le s im ag es m o in s u n e !
Co nd iti on 3
~ d u ré e d es i m a g es
Dif fé re nce d e m oy en ne
C h a rg e
T ra it s d ia g n o s ti c à l a f in C ib le p ré s e n te
/ ·$ % & G H O D U H F K H U F K H Y LV X H OO H 7 R X WH O ·K LV WR LU H G H $ j = "
7 R X WH O ·K LV WR LU H G H $ j = " S o m m ai re j u sq u ’à p ré se n t $ / D U H F K H U F K H H V W V p U LH OO H % / D U q J OH G ·D U U r W H V W S U H V T X H H [ K D X V WL Y H S R X U O H V H V V D LV y / D U q J OH G H G p S D U W H V W H [ K D X V WL Y H R X D X WR F H V V D Q WH & / ·L G H Q WL IL F D WL R Q Q p J OL J H O ·L Q IR U P D WL R Q Q R Q S H U WL Q H Q WH -X V T X ·j S U p V H Q W ^ $ % & ` V R Q W LQ G p S H Q G D Q WV H W D G G LW LI V 8 WL OL V H U O H V G LV WU LE X WL R Q V G H V 7 5 R II U H X Q P H LO OH X U S R U WU D LW G H V U p V X OW D WV F R Q G V WD Q G D U G & K D Q J H U O D W k F K H
²&RQVWUXLUHODVFqQHSUpVHQWDWLRQSDUREMHWFRQGRX ²&RQVWUXLUHOHVREMHWVSUpVHQWDWLRQSDUWUDLWFRQGS H U P H W G H P X OW LS OL H U O H V H II H WV
7 R X WH O ·K LV WR LU H G H $ j = " Q u es ti o n s 4 X H V H S D V V H W L O OR U V G H O D S K D V H G H S U p S D U D WL R Q "
3UpSDUDWLRQPHQWDOHRXDMXVWHPHQWDXEUXLW"3 X LV T X H O ·R E MH W V H P E OH G p F R P S R V D E OH F R P P H Q W V R Q W LQ Wp J U p V O H V W U D LW V "
3DUVHXLO"3DUVRPPDWLRQ"$XWUH" &HSHQGDQWO·LQWpJUDWLRQHVWWDUGLYH 7HVW3UpVHQWDWLRQLQFRPSOqWHGHVVWLPXOL< D W L O D WW U D F WL R Q G H O ·D WW H Q WL R Q "
'DQVOHVFRQGLWLRQVSUpVHQWpHVQRQFDUOHV WUDLWVGLDJQRVWLFVVRQWWRXMRXUVV\QFKURQHV 7HVW3UpVHQWDWLRQDV\QFKURQHGHVWUDLWV GLDJQRVWLFV8 Q P R G q OH G H O ·L G H Q WL IL F D WL R Q
/HWDX[G·DFFURLVVHPHQWSHXWrWUHYXFRPPHXQ YHFWHXU'LIIpUHQWHVLQIRUPDWLRQVSHXYHQWDYRLU GLIIpUHQWVWDX[ÍGLDJQRVWLFLWp
2 0 4 0 6 0 8 0 1 0 0 te m p s
0 .2
0 .4
0 .6
0 .8
1
8 Q P R G q OH G H O ·L G H Q WL IL F D WL R Q D ét ec te r u n e in fo . = s o rt ir d u b ru it , m ai s p as t ro p T au x d ’a cc ro is se m en t d es é v id en ce s S ti m u lu s B ru it i n tr in sè q u e
A tt en te su ff is an te S o rt ie d u b ru it
6LPLODLUHDX[WKpRULHVGHGpWHFWLRQGHVLJQDOVDXI
8 Q P R G q OH G H O ·L G H Q WL IL F D WL R Q U n m o d èl e d e co u rs e en p ar al lè le %DVpVXUXQPRGqOHG·DFFXPXODWHXUVHXLO &HPRGqOHHVW±
VHPEODEOHDXPRGqOHGHFRXUVHGH3RLVVRQFHSHQGDQW D,OHVWSDUDOOqOH E1HGpSHQGSDVG·XQSRVWXODWUHVWULFWLIGLVWULEXWLRQGH3RLVVRQ
0 2 0 4 0 6 0 8 0 1 0 0 1 2 0 2 5 0 4 5 0 6 5 0 R T
Fr éq uen ce
300400500600700800 RT
0.001
0.002
0.003
0.004
0.005
0.006
y c n e u q e r F
8 Q P R G q OH G H O ·L G H Q WL IL F D WL R Q U n r és ea u d e co u rs e en p ar al lè le &HPRGqOHSHXWrWUHWUDQVIRUPpHQUpVHDXDYHFXQHUqJOH G·DSSUHQWLVVDJHSRXUDMXVWHUOHVGpODLV'HWOHVVHXLOV.
I D ↓ M in ↓ R a R b
×
…ID
K
aK
b3 D U D G R [ H T ra it em en ts r ap id es v er su s le n ts 0 H U F L G H Y R WU H D WW H Q WL R Q
&HWWHSUpVHQWDWLRQHVWGLVSRQLEOHVXU KWWS3UHOXGH3V\80RQWUHDO&DaFRXVLQHGWDONV% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W M o d él is er u n e re ch er ch e q u as i ex h au st iv e (Q E ) 3URSRVLWLRQ∃
SUREDELOLWpSTXHOHVXMHWWHUPLQHVDUHFKHUFKHWURSW{WS HVWLPpjSDUWLUGXWDX[G·HVVDLPDQTXp /HQRPEUHGHFRPSDUDLVRQUpHOOHPHQWHIIHFWXp'·HVWHQPR\HQQH OpJqUHPHQWLQIpULHXUDXQRPEUHGHVWLPXOLVXUO·DIILFKDJHWHVW &HWWH©FRUUHFWLRQªHVWDQDO\VDEOH'·IRQFWLRQGHSHWGH'XQLTXHPHQW HWO·LPSDFWGHV('SHXWrWUHUHWLUpGHVPHVXUHVREWHQXHVPR\HQQHHW YDULDQFH
) ( ) ( ’ ) (
) ( ) ( ’ ) ( I Var T Var D D Var
I E T E D D MN + = + =
−−
) ( )’ (
2T E D Var +
Co nd iti on 1
F o rm u le s d e b a se d es p ro b a b il it és c o n d it io n n el le s: P r( a |b )= P r( a b )/ P r( b ) P r( a )=
L o c
1 d P r
B i
P r
a
B i
P r( d ev in e )= 1 -p P r( r ec h er ch e| i , p re se n t )= p i
1 % M a n q u és = P r( " n o n " | p re se n t, D ) = 1 - 1
p
DD
1
p
% 5 q J OH G ·D U U r W 5 q J OH G H G p S D U W D eu x t es ts d e la r èg le d e d ép ar t
Co nd iti on 2 Tra
nsf ert 2
(1 /3 es sai s) (se
ssi on s 5 5..
59 )
*
Point de fixation
Affichage test Temps de réponse mesurés depuis l’affichage des stimuli
Aucun cercle
1 . E n le v er l ’i n fo rm at io n p er m et ta n t d e se p ré p ar er 2 . A b se n ce d ’e ff et F IF O
**
Point de fixation
Affichage test Temps de réponse mesurés depuis l’affichage des stimuli
Cercles indiquant où les stimuli vont apparaître
% 5 q J OH G ·D U U r W U q J OH G H G p S D U W 1 . E n le v er l ’i n fo rm at io n p er m et ta n t d e se p ré p ar er ( a) / H V F H U F OH V L Q G LT X D Q W OD S R V LW LR Q G H V V WL P X OL Q H V R Q W S OX V S U p V H Q Wp V
Tra nsf ert 2
(se
ssi
on
s 5
5 à
5
9)
% 5 q J OH G ·D U U r W U q J OH G H G p S D U W 1 . E n le v er l ’i n fo rm at io n p er m et ta n t d e se p ré p ar er ( b ) 2 : 1 ⇐
$YRLUPRLQVG·LQIRUPDWLRQSRXUVH SUpSDUHUUDOHQWLOHVXMHW$HIIHWVXU DGGLWLI /HUDWLRGHO·HIIHWGHODSUpSDUDWLRQHVW GHFHTXLVXJJqUHXQVWDGHDXWR FHVVDQWUpDOLVpjPrPHODUHFKHUFKH YLVXHOOH⇐
$YRLUPRLQVG·LQIRUPDWLRQSRXUVH SUpSDUHUDXQHIIHWTXLHVWDPRUWLDYHF ODWDLOOHGHODFKDUJHHIIHWVRXVDGGLWLI /HUDWLRGHO·HIIHWHVWGHFHTXL VXJJqUHXQVWDGHH[KDXVWLITra nsf ert 2
Dif fé re nce d e m oy en
ne ne en oy e m d nce re fé Dif
C h a rg e
% 5 q J OH G ·D U U r W U q J OH G H G p S D U W 2 . A b se n ce d ’e ff et F IF O ( a) 3 U p V H Q WD WL R Q U D S LG H
,6,GHHWPV' H V R E MH WV 5 6 2 3 / ·L G p H H V W T X H V L OD F LE OH H V W S U p V H Q Wp H H Q S U H P LH U H OO H G H Y U D LW r WU H WU D LW p H H Q S U H P LH U H II H W ) ,) 2 ⇒ 3 U p G LF WL R Q S D V G ·H II H W G H F K D U J H V L OD F LE OH H V W S U p V H Q Wp H H Q S U H P LH U G D Q V X Q P R G q OH V p U LH O V D Q V U q J OH G H G p S D U W
*
Co nd iti on 2
(1
/3
es
sai
s)
% 5 q J OH G ·D U U r W U q J OH G H G p S D U W 2 . A b se n ce d ’e ff et F IF O ( b ) 4 X D Q G O D F LE OH D S S D U D vW H Q S U H P LH U OH V 7 5 S R X U ' Q H V R Q W MD P D LV S OX V S H WL WV T X H O H V 7 5 S R X U ' F H T X L V X J J q U H T X H O D S U H P Lq U H L P D J H Q ·H V W MD P D LV W U D LW p H LP P p G LD WH P H Q W G R Q F X Q H S K D V H G H S U p S D U D WL R Q G ·D X P R LQ V P V 4 X D Q G O D F LE OH D S S D U D vW H Q G H U Q LH U OH V 7 5 V R Q W U D OH Q WL V S D U H [ D F WH P H Q W OH WH P S V T X ·L O ID X W S R X U T X H W R X WH V O H V LP D J H V V R LH Q W D II LF K p H V
Co nd iti on 2
Mo ye nn
e e nn ye Mo
C h a rg e
& ,G H Q WL IL F D WL R Q U n e tâ ch e d e d ét ec ti o n d e tr ai ts ' H X [ T X H V WL R Q V ² ( V W F H X Q H F LE OH U D U H P H Q W OH F D V " ² 4 X H OV W U D LW V D Y H ] Y R X V Y X V "
Is i t th e ta rg et ?
&HWWHWkFKHDpWp LQWURGXLWHSDU7RZQVHQG HWDOHQ
Tâc he 2
(se
ssi
on
s p
air
es
ju
sq
u’à
3
4)
& ,G H Q WL IL F D WL R Q R és u lt at s d e la t âc h e d e d ét ec ti o n d e tr ai ts & D S D F LW p O LP LW p H S R X U W R X V V D X I V X MH W % OL p j O ·H V WR P S D J H " / H V W U D LW V G LD J Q R V WL F V S U H Q Q H Q W P R LQ V G ·H V S D F H 2 8 V R Q W S U LR U LV p V D Y D Q W O· H V WR P S D J H H II H W P X OW LS OL F D WL I ⇒ J D LQ S H U F H S WX H O " / H V F R Q IL J X U D WL R Q V F R Q Q X H V V R Q W U D S S H Op H V S OX V H II LF D F H P H Q W H II H W D G G LW LI ⇒ ID F LO LW D WL R Q P X WX H OO H "
N o m b re d e tr a it s
Tâc
he
2
' / D U p V R OX WL R Q W H P S R U H OO H P ré se n ta ti o n i n co m p lè te d es s ti m u li ( a) / H V W U D LW V D S S D U D LV V H Q W X Q S D U X Q P D LV D S U q V O H
LqPHF R P P H Q F H Q W j G LV S D U D vW U H
,6,HVWHWPV/ H V W U D LW V G LD J Q R V WL F V V R Q W S U p V H Q Wp V D X G p E X W G H F K D T X H F \ F OH LO \ D W U R LV F \ F OH V F R P S OH WV E
tc .
*
Tra nsf ert 4
(se
ssi
on
s 7
0 à
7
4)
' / D U p V R OX WL R Q W H P S R U H OO H P ré se n ta ti o n i n co m p lè te d es s ti m u li ( b ) 3 R X U O D S U H P Lq U H I R LV OH V I D X V V H V D OD U P H V G LU H © R X L ª T X D Q G D X F X Q H F LE OH Q ·H V W P R Q WU p H V R Q W D II H F Wp H V S D U X Q H P D Q LS X OD WL R Q / ·H II H W H V W WU q V J U D Q G H W P D [ LP X P S R X U X Q W D X [ G H S U p V H Q WD WL R Q W U q V U D S LG H T X D V L V LP X OW D Q p
0 %
5 %
1 0 %
1 5 %
2 0 %
2 5 %
3 0 % 1 2 4 C h a rg e
P(F A) C o n d it io n s ta n d a rd In c o m p le t 1 6 m s I S I In c o m p le t 3 3 m s I S I In c o m p le t 5 0 m s I S I
Tra
nsf
ert
4
*
' / D U p V R OX WL R Q W H P S R U H OO H A sy n ch ro n ie d e l’ in fo rm at io n d ia g n o st ic ( a) / H V W U D LW V D S S D U D LV V H Q W X Q j X Q P D LV O H V WU D LW V
,6,HVWHWPV« G LD J Q R V WL F V G H O D F LE OH V L S U p V H Q WH Q H V R Q W S D V P R Q WU p V D X P r P H P R P H Q W T X H O H W U D LW G LD J Q R V WL F G H V G LV WU D F WH X U V
Tra nsf ert 3
(se
ssi
on
s 6
5 à
6
9)
' / D U p V R OX WL R Q W H P S R U H OO H A sy n ch ro n ie d e l’ in fo rm at io n d ia g n o st ic ( b ) 6 L OH V W U D LW V G LD J Q R V WL F V V R Q W S U p V H Q Wp V W { W O H V S H U IR U P D Q F H V G LP LQ X H V / ·H II H W H V W S OX V L P S R U WD Q W V L OH V LQ IR U P D WL R Q V V R Q W S U H V T X H V LP X OW D Q p H V 6 L OH V W U D LW V G LD J Q R V WL F V V R Q W S U p V H Q Wp V W D U G O· H II H W H V W S D U ID LW H P H Q W V \ P p WU LT X H
Tra nsf ert 3
C h a rg e
Dif fé re nce d e m oy en
ne ne en oy e m d nce re fé Dif
8 Q P R G q OH G H O ·L G H Q WL IL F D WL R Q T es ts d u r és ea u d e co u rs e en p ar al lè le $QG;25 6D\$DVVRRQDVWZRHYLGHQFHV6D\$DVVRRQDVWZRHYLGHQFHVRU RU6D\%DIWHURQHHYLGHQFHRU 6D\%DVVRRQDVDVRQHHYLGHQFH6D\$ODWHUZLWKWZRHYLGHQFH Solution dij = short long delay T=
Problem Categories A B 2 1 Solution di j= short long delay T=
Problem Categories A B 2 1
Dimension 2Dimension 2
Dim en sio n 1
Dim en sio n 1
