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TC - Item 3A - Traffic Concerns Along Muscatel Ave- n m W :U C D N N O_ N (7 Z ;[7 Cl) D :U D m r O C W r_ C) O x Cl) m n O X n T_ C) (7 O CO C/) O Z O Cl) EC a n Cl) C7 n O X EC m z g7q-° 5K5 D 3 =w m v 0 < m >w _0 °p m n N •Si -00 C r: CD C5 (5 • • • v D N N = - �� < N(D =3 3 wa ° ) S c,� v 3 m T.CDCD< °� (D W CC ' p CD CD C Co O m (D N 0 CD 0) m _n N CD (- n CD O N N 7C N D N D) , 0 N D o C/1 N° O 0 D) <° °_ Q. =3 .Z7 C . � 3 - 0 � CD y fD n (Q n�1 CD 0 CD CD `G N CD (D CD Q � a fD N O S v N C= O O ' .. C 6 C O (n CD CD < In =31 3 CD C 't3 CD 3 O CD CD w .+ C- s 0 Cp ,Z N ° 0 0 7 �' CD CS CD ° N _ O N N• a ..0 < - � N a. . 3 C� O a N S S C 0(D N v p � • N . O O_ ?`. N O N a 0 a w C_ CD N O 3 N c o_ Co S N CU CI .. O N< r. C CS 0 p C a N C_ N '<G 2 A (6n CC) CD C D) = W 7 0 N CD N N C 0 O '^ N E;; D) ' 0 ;:I. . O C C CD a D) O S O U) O v D) O 'O '6 N (D v `< CD 1 C• > CD < CD 0) O U) O O CD O "' CD D) O CD a p C (D n N N i ,�. S .. S 0 7 0 p CD O p W CD 0 0- - I O D) C) C. O 7C' S N 0 �.. ° N (D N W 0 O O D7 N ( CC C C CD 0 CD C• O CD 0 0 0 -0 (D 6 Q O - D) .. 7 0 -• < D) 0 D1 0 (n C CC D) 0 6 Sv `< 7 O O Q* CD CD N ' 5 7 9 in 3 :3 N 0, O , N N ::3 D) N 0 6 7 O CD a W C N CO 0 C. O 6 C CD C CD S CD N CD 3 . 0 0 N 7 7 CD (D S CD N DJ 6 S , �' C' N N `G 1 N - (D C 3 3 ¢ � 3 a 3 0 O O C- 3 0 0 � O CD (a �' 0 X•<•O CD < O O a- C�� CD =r C"�^•6 D ._. D) O c a -I 9: p d >- O 7 CD p O a(D N O 0 'S N 0 y C S N m . CD 3 W el :E O ° �n. fD 0 v S N CD Q x a p O v c C 0 In v S O p p N D) N < ?CD 3 0'CD (D - - N =r O , D n 1 Co . .-. CD to < (C fC 6 ,ti, - 6 0 CD 0 O CD < < 6 7 6 C C- 0 N W D) C O O C 'G CD p S D1 v 7 O 7 .w ,p., CD N N 0 C 3 0 3 N Co - ^ -n 0 a O S0 D) N'a - cn w CL CQ 0 O � N N C 3 N 0 a 0 a x 3 CD (7 CD 7 CD N O Q 7 C) (On D) ( 3 06 C N D) 3. .. O (D a 7 (O v K CD 6 K 6 6 a (C 6 CO = 3 N 3 CD a 4 CD CD 3 << a - n m W :U C D N N O_ N (7 Z ;[7 Cl) D :U D m r O C W r_ C) O x Cl) m n O X n T_ C) (7 O CO C/) O Z O Cl) EC a n Cl) C7 n O X EC m z p - O L m m n - n m W :U C D N N O_ N (7 Z ;[7 Cl) D :U D m r O C W r_ C) O x Cl) m n O X n T_ C) (7 O CO C/) O Z O Cl) EC a n Cl) C7 n O X EC m z o CD = o W 0 W ^ v CD (D M 0 O 0 cn r. O 0 (D CD W 3 O N �. co O j < Q O W CD C) 0 CL �. CO I 0 3 p < N 3 c W 0 s s W (D W (D O C2 p'n 1710 =T CD Vic. CD 3'°.= 3 3 3 -0 (D - p cc o 3 3 3 o W O O O CD _ 3 .0 C �m O � CD � f D �' CL CD w o Z 3 Q W C < CU N Q W = CD CL '. 0 W j CD v (D D CL CD �I W CU o CD -p���. N CD CD 3' ° 3' 0 CO N co O W c m 0 W �sWCD Q CD C CL CD 0 O n(0 w wo U CD a) �' O< w Q = O O CD o mCD O N �Q"m (D X 3 CD N (D C � O v N. � CD CD C2 O -s ' O CD C2 CD .. C2 m3tvo• o <_. 1 3 O C L CD CD 3 W C1 c O CD 3 p_ M. 3 v CD N M00MD0� D r Dr TX3 < C2 O O (D W >v (D CL g 0 -o_ W 0 3 0 CCD 3 CU W O ( CO 0(O -I O O Q(O W N - z (D s 2 CD j' 3. O O (D rt X, n O ova 3 51ao a v 0 CD CL (n fU Sll CD T CD r 0 3 C1 C CO � O. N (D 0 N — Q W o 3 p ° 3 r: ( 0 CD 3 O � 3 CD .0 0 0_ (D C1 O N O c 3 o = (D3 n 3 0 a a m CD O N CD CD C2 W N O O CL is 3 _ CD N 2 =3 m 0 N (D O 3 CD W v (Q' CD (n n N 0 O X 0 N O W O O 0 0 O � L c D W 0 v v m � K@> m3vWWD N 0 C Q c C O N Z fD CD .. z W C C C DD ' a CD 0 0 G O CD O 0 N CD I j < Q O G CD :3 CD a 3 �. CO I K CD c = s3 °? m D � a CD `< fl N Q°Dp N<° CD Cr 0 CU Cal CU N O ' s c m CD cr 2 O cc o 3 3 fD CD N N 3' CD .0 C OC O 0 o < o. ?w < C A Q3 3 N =r CD (T ( n O CD N N CU N Q A 0. Q' O CD CD N C) Cj O CD O O -o Sll ,< OW .N+. -p���. — N CD CO CD � n 3' 0 CO N N o> '-+; 0 0_60 0 c C CL CD 0 CD W w wo CD c CD �' Q3 CD CD 5 C �< 0) 0) o N 0 �Q"m 3 oN CD O 0 - C CD CD ^ 3 I N o Sao cCD CD O 3 M 0 W 3 c CD N o o l< N 5. W c ? F CD CD ( D CO C CD N C1 o p (D °3ww _. C2 O a0- CD S 3 C% O y O 7 O 0 O O N (0 0 . 3 3 0 y' qC W p7 N W 0 CO CD cr ... 3 O = 7 I W 0 +, N � p En N Q 0 CD E (D O Cy C O < N (7 �m CD � m 0 - m CD m o o o o cn N 5 C Q c C O Cn N G S 3 C2 CD .. z �. ` C Cr N O CD CD 0 0 G O O W CD CD (n ? @ j < Q O 0- CD CO C- W =r o (D 0 O 3 (D K CD c = s3 °? m 0 0. a CD `< . p. N CD O '; j CD Cr 0 3 0 CL ?, C 3 O ' s c m CD cr 2 (D CD CD cc o 3 3 3 v c C1 0 CD o 0) v O C2 I 3 N C- sv p_ N OC W o o 0 o < � O 3 W < C A c n O. 0 3 N =r CD (T ( n O CD I O a * o N CD 0 v �. O CD O.. O a (D Cj O n «-I � < O O CD 3 CD i o = O 6 P, O — N - rr W � n N C A D Sn o Q CD '-+; 0 CD F � 0 c C CL CD F Q 7 CD W w wo C- m o CD N 0 p CD -� W 0 CD 60(D 0 '03 cn N O 3 a). 0 3 `� M O 0 W CD O 70c NCO p O N 7 . 0 O 3 0 C (D O. 7 CD W � — O -O w e C1 0 W W p ^" C2 ': n (O N CD CD - aQ — oD N Q: N CQ =r iZ O0 So O O CD w S W =. O o ,? c S a =3 O N O ' c> p (D D Q = < O W (n33c 'O (D CD c CD Q Oo CU O C U) N to CD 0 - (D 0 N 3 . CD cD '-. C1 0 cn =3 c j � CD O < CD C2 O ,... CD O W v �. CL CD N CD CD < '. O p� �� O 3 3 N =3 CD K (D CD 0 CS CD + W O 0 CO N �_ N CCDD CL O CD 3 — 'O C0 W '-+; 0 _ . O ,< =r — 0 Cc 0 (D CD O0 C� CD n U) * (D W + 3 N (D .< <a v 0 3. C CD — CD CU W 0 W C2 CD vm� N d O G 0 CN N N � o N m Wm f» %i /\ // Pm \ e\ \ 7 [ [ ] > - u a/ 7 0 {/2 ° 3f w 0 *� / 0 # ~ { « 0 } 0 / ƒm a 2 0 3 0 E 2 \ 2 En T M m . � M m C C Q N O O O N M c m . O o O (O N N t0 a) M M N 1� N (O _N ¢ a � o O M M r M O 07 O ~ O� t0 N N i0 O) N N N� O j N � a o O N O O N M M M co co N N M O N 16 N � a_ o p O O O O O N O �- N E w W W o w a � o 0 U n m O O O O O M O N N M o a M W � U V o C U) ° N m O O O O O O O O M N M N m N M W J ¢ P o co O O O O O � N O 3 � m J N U) o U) N N O O N N M M M N r ) N (n W N a_ o vi CO N O O O O O O O O O N V M N V O U N cz; � ) O o U) j m O O O O O O U N W U) o � U) y m a:: CO N N N O O O N O T M IT N IT (' t6 N Nj M w T w 0 - a a Cl- Cl_ a Cl_ a � O O O O O O O O O O O O U O O O O O O O O O O O O O 0 0 x x a Q n C ui Q C O Q N � ¢ ¢ m � E O O T � � a a N N N w O N N a U) N N N w� C C O O a a w N O O Cl- d C C O O) U) U) 6l 61 Y .Y as z z° TURNING MOVEMENT COUNT PROJECT NAME: Traffic Counts and Parking Demand Analysis for Muscatel Avenue Bch anValley Boulevard and Mission DrFre PROJECT NO TD12012 -03 DATE: 1Q4I2012 Tyesday TIME NS STREET: Muscatel Avenue E- WSTREET: Edmond Drive PEDCOUNT NORTHBOUND 0 SOUTHBOUND 0 N -S EASTBOUND 0 WESTBOUND 0 E -W LEFT THRU RIGHT LEFT THRU RIGHT T OTAL LEFT THRU RIGHT LEFT THRU RIGHT TOTAL NL SL EL WL 0]'00 -0]:15 3 1] 0 0 31 1 52 3 0 6 0 a 0 9 0 01010 0 0]:15 -0]:30 a 2] 0 o n 0 se z a 0 0 a a 10 0 0 0001 a 0 0]30 -0]:45 19 60 0 0 54 4 145 ] 0 13 0 0 0 20 0 0 0 0 0]:45 -00:00 42 90 0 0 00 6 224 6 0 34 0 0 0 40 0 0 0 0 0600 -0815 20 50 0 0 46 1 125 7 a 23 0 0 0 30 0 0 0 0 00:15 -00:30 6 32 0 0 ]3 1 112 7 a 17 a 0 0 24 0 0 0 0 0830 -08'45 5 41 a 0 76 2 124 2 0 5 0 0 0 7 0 0 0 0 08:45-09.00 2 39 0 0 56 0 97 0 0 fi 0 0 a 6 0 0 0 a 14. 0614:15 a 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 a D 14:15-14:30 0 0 0 0 0 0 0 0 0 0 0 a a 0 0 0 a 0 14'30 -14:45 0 0 0 0 0 0 0 0 a a 0 0 0 0 0 0 a 0 14:45 -15:00 0 0 0 0 a 0 0 a 0 0 0 0 0 0 0 0 0 0 1500 -1515 0 a 0 0 a 0 0 a 0 0 0 0 0 0 0 0 0 0 1515 -15.30 0 a 0 0 0 0 0 a a a a 0 a D 0 0 0 a 15:30 -1545 0 0 0 0 0 0 0 0 0 0 0 a a 0 0 0 0 0 15:05 -16.00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 16:00 -15:15 ] 53 a 0 50 2 112 5 0 ] 0 0 a 12 0 a a D 1615 -16:30 5 20 0 0 29 0 62 2 a 4 a 0 a 6 0 0 a 0 16:30-16'45 5 54 0 0 39 3 101 4 0 3 0 0 a 7 0 0 a 0 16:451]'00 5 72 0 0 60 3 140 3 0 6 0 a 0 9 0 0 a 0 1]:061]:15 3 44 0 a 43 3 93 4 0 7 0 0 0 i1 0 0 D 0 1]:151]:30 4 52 0 a 4'0 1 103 4 0 8 0 0 0 12 0 0 D 0 1]30 -1]:45 4 58 0 0 55 4 121 2 0 5 0 0 0 ] 0 0 0 0 1745 -1000 ] 5] 0 0 49 4 117 8 0 8 0 0 0 14 a 0 0 0 PEAK -HOUR VOLUME ANALYSIS Diracticn CALCULATED PEAK HOUR VOLUMES -AM SB ADJUSTED PEAK HOUR VOLUMES -AM AM PM 12 253 0 1 PM AM I PM AM T PM Peak Hour Begins 01:30 SR ST SL 0]30 16:95 0]:30 SR ST SL 16:45 27 EL WR 0 EL 40 12 WR a ET 0730 -0030 Wr 0 ET 215 114 WT 67 ER IL 0 ER 1 0.]] I 0.65 WL 1 081 NL NT NR NL NT NR 8] 254 0 CALCULATED PEAK HOUR VOLU MES -NOON ADJUSTED PEAK HOUR VOLUMES-NOON 0 D 0 SR ST SL SR ST SL a EL M 0 EL WR _ 0 ET 14:0615:00 1AT 0 ET VJT a ER WL 0 ER WL NL NT NR NL NT NR 0 0 0 _ CALCULATED PEAK HOUR VOLUMES-PM ADJUSTED PEAK HOUR VOLUMES PM 11 204 0 SR ST SL SR ST SL 13 EL WR 0 EL WR 0 ET 16:4517:45 WT 0 ET M 26 ER WL 0 ER WL NL NT NR NL NT NR 16 228 0 Diracticn NB SB EB WB AMIPM AM PM AM 1 PM AM I PM AM T PM Peak Hour Begins 01:30 I 1 16:45 0]30 16:95 0]:30 16;45 0730 16:45 Peak 15- min Volume 130 1 ]] B6 63 40 12 0 0 Peak Hour Volume 341 242 265 215 114 1 It I 0 Peak Hour Factor 0.62 1 0.79 1 0.]] I 0.65 1 0.11 1 081 Peak Hour Totals AM PM 720 498 PEAK HOUR VOLUME: MUSCATEL AVENUE SOUTH OF EDMOND DRIVE AM PEAK HOUR: N6 =341, SB =340, TOTAL = 681; PM PEAK HIUR. NB =342, SS= 30, TOTAL= 572 Caneuaea ay: Traffic Drug, Inc N L L L L L L L L L > O � in Yn Yn in O O amin vi fnain N www zwzww ..03zmmz v L C C E L L C t > L_ L_ F F L_ F L_ L_ F L_ F @ J @ J O O j mzz m�zz� m�mzw�� ❑ N N N N N p�@ � N @ @ @ N U_ U_ U_ U p p U_ E U V E C J L L E E L L E L L L L L L @ N N W N N N @ N @ W N N a 2 @ @@ N N W y N @@ @ W N w L L L L OOOaO L L Y L L 0a L L 0 a > 000 a0 a t}- .300 w a w'3�3�va O O m22 �mm K mmm m U u u w o v u O m E m ° W m m° Em 0 w m > F `v m `v > F p `@ —. a m�� > > m `v a < app v0 2W6 °m O m E E o a E E U c c r w a N N N N N N t7 N M N N N N N N u w z_ ❑ o m o m 0 J N N N J O O O O O O O O 0 0 0 0 0 0 0 Y C O<< C 00 C C 0 0 C 0 2 C 0 a a � v v'c @ a 2 rc E.. . EE9E EEE� Ems. w N C '@ C @@ N@ C C @@ @'N @ C > ❑ @ 0050 @ @ ❑ ❑ ❑ ❑ _@ m E E m m `m v E E v v `m v E O O L_ O O L O p U U O O O O U U Q O O O O U a a s a` a a a a zz mz m zzz F 0 M c m N N m K > r > J Q m m > J J a m a m m ¢ J❑ J s¢ w Z J J Z �' O >❑ Z O O ¢ J J a J S m m J J W m Q w a> J w U O w a a O O W m 0�: a¢ Z » m > > > > > > > > > > > > > > > ❑ aaa J J J a¢aaa J J J J aaa¢¢a¢ J J J J J J J T W W W W W W W W W W W W W W W a <<< ¢¢ a Q a ¢ a¢ Q a¢ a 0000 Uo w m o w mm 2 2 2 w�nwwm 2 2 2 2 2 mmwmmmw 2 2 2 2 2 2 2 d w o m o o moo m o m o o m r o m m o M o m o M o M M m F m � N O] m m V O m N M N T N [O r (D W o 0 o m m rn m w m m m m m m m Q 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N N N 0 N 0 NNN 0 0 0 N 0 N 0 N 0 NNN 0 0 0 N 0 N TURNING MOVEMENT COUNT PROJECT NAME: Traffic Counts and Parking Demand Analysis for Muscatel Avenue Bec.ea Valley Boulevard and Mission Drive PROJECT NO: TD12012 4t3 DATE: 112412012 Tyesday TIME NS STREET: Muscatel Avenue E- WSTREET Edmond O. PED COUNT NORTHBOUND 0 SOUTHBOUND 0 NS EASTBOUND ol WESTBOUND 0 E -W LEFT THRU RIGHT LEFT THRU RIGHT TOTAL LEFT THRU RIGHT LEFT THRU RIGHT TOTAL ML SL EL WL 0700-07 3 27 0 0 31 1 52 3 0 6 0 0 0 9 D 0 0 0 7 0]:15 -07:30 4 27 0 0 27 0 SB 2 0 8 0 0 0 10 0 0 0 0 0]30 -07:45 19 60 0 0 54 4 145 7 0 13 0 0 0 20 0 0 0 0 0795 -08:00 42 88 0 0 00 6 224 6 0 34 0 0 0 90 0 0 0 0 08.00 -08:15 20 50 0 0 46 1 125 7 0 23 0 0 0 30 D 0 0 0 D6:15 -06:30 6 32 0 D T3 1 112 7 0 17 0 0 0 24 D 0 0 0 00:30 -06:45 5 41 0 D ifi 2 124 2 0 5 7 0 0 0 0 00:45 -09:00 2 39 0 D 58 0 97 0 0 6 fi D 0 D 0 14:00 -14:15 0 0 0 0 0 D 0 ol ol ol 0 0 0 0 D 0 0 D 14:15-14:30 0 0 0 0 0 0 a 0 0 0 0 0 0 0 p 0 D 0 14:30.14:45 0 0 0 a 0 0 0 0 0 0 0 0 0 0 D 0 D 0 14:45-05:00 0 0 0 0 0 0 a 0 0 0 0 0 It D D 0 0 0 15:00 -15:15 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I D 0 0 15:15 -15:30 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 D 0 15:30-15:45 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 p 0 15:45 -16:DD 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 16:00.16:15 7 53 0 0 50 2 112 PM ;45 AM 7 0 0 0 12 0 0 0 0 16 5 28 0 0 29 0 62 0 ET 4 0 0 0 6 0 0 0 0 1630 -16:45 5 54 0 0 3B 3 iDl _ 3 0 0 0 ] a 0 0 0 1645 -17:00 5 T2 0 0 60 3 140 0 6 0 0 0 9 0 0 0 0 17:00 -17:15 3 40 0 0 43 3 93 H40 7 0 0 0 11 0 0 0 0 1]:15 -1]:31) 4 52 0 0 46 1 103 11 204 0 8 0 0 0 12 0 0 0 0 1730 -17:45 4 58 0 0 55 4 121 WT 0 5 0 0 0 ] 0 0 0 1745 -18:00 7 57 0 0 49 4 117 8 0 0 0 14 0 0 0 0 PEAK -HOUR VOLUME ANALYSIS PEAK HOUR FACTOR CALCULATIONS Dimcfion CALCULATED PEAK HOUR VOLUMES M 38 ADJUSTED PEAK HOUR VOLUMES -AM m AM1 M 12 253 0 PM ;45 AM PM AM PM SR ST SL Peak Hour Begins 0730 SR ST SL 07:31) 27 EL WR a EL WR 0 ET 07 :30.0830 VJT 0 ET WT 87 ER WL 0 ER WL 39 NIL NT NR Peek HOUr Facbr 0.62 NIL NT NR 0]] 0.05 67 254 0 0.01 _ CALCULATED PEAK HOUR VOLUMES -NOON ADJUSTED PEAK HOUR VOLUMES -NOON 0 0 0 _ SR ST SL SR ST SL 0 EL WR 0 EL WR a ET 14:0a15:00 WT 0 ET WT _ 0 ER WL 0 ER WL NL NT NR NIL NT NR 0 0 D _ CALCULATED PEAK HOUR VOLUMES PM ADJUSTED PEAK HOUR VOLUMES -PM 11 204 0 _ SR ST SL 6R ST SL 13 EL WR 0 EL WR 0 ET 1045 -17:45 WT 0 ET WT 26 ER WL 0 ER WL NIL NT NR NIL NT NR 16 226 0 PEAK HOUR FACTOR CALCULATIONS Dimcfion NB 38 EB m AM1 M AM PM ;45 AM PM AM PM AM PM Peak Hour Begins 0730 07:31) 18:45 07.30 16:45 0]:30 1645 PeaklSmin Volume 130 77 06 fi3 qa 12 0 0 Peak Hour Volume 341 242 265 215 114 39 0 o Peek HOUr Facbr 0.62 0.79 0]] 0.05 0.11 0.01 Peak Hour Totals AM PM 720 498 PEAK HOUR VOLUM E:MUSCATEL AVENUE SOUTH OF EDMOND DRIVE AM PEAK HOUR: NB =341, S13=340, TOTAL= 681; PM PEAK HIUR'NB= 342,313=23R TOTAL =572 Peak Penod Traffic Turman Movement Ccunts Cmtlutled 91 Treff,. Nmgn, Ina W Q ❑ Z v Z C O Q o � Q ¢ O O 0 o O T � tQ - a y w � N F ~ o N N O y N N W O O a a N N O O as � c m m U) U) m rn c � Y Y - l0 0. d O O Z Z O C O p N O O O N M ,O o O (O N N W CO N_ Q � C N (O N o W v m N F o 3 N ❑ N � o .� N O O N M M M M M N N M O U5 N O N o p N O O O O O �- N O .-- N w c6 W ❑ N a v o C O O N O O O O O M O N N M Lq a � � M W > Q U V o O O O O O O O O O O N � M 6 W J Q O 0 O O O O N ry O 3 � m J N 2 a o N N O O N N M M M N U N r N (n W d a o N cn_ o W O O O O O O O O O N M N V O U N O O U) N T U o > O W O O O O O O O O O O O t0 O 2 y m N W m a T O O O O O N N N N t0 N N 7 �O t0 > O � � [p N T a o O O O O N O V M V N It M > O M M W W ¢¢¢¢¢ a a a a a a a a a o ° ° o 0 0 0 0 0 0 " O o (n O O O O O O O O O O o I� W O) ° N N M 4 N (6 1� N N Z v Z C O Q o � Q ¢ O O 0 o O T � tQ - a y w � N F ~ o N N O y N N W O O a a N N O O as � c m m U) U) m rn c � Y Y - l0 0. d O O Z Z O 2 E2 L° y L° L° N `m �° L° @ in in in wwa w p a66 Nin N 2' wow Z m Z w w w 2 Z w w Z p L E t15 E O L'F2 F L_ r '0% J J w Z Z w 3: Z Z 2, w3: w Z w C p p m w v m m d 2 m T v v d m v U (] [) (� V U U U U U U U U U C L L t L L E E L L L Z > > > > > > > > > > > > > 0 L L L } W > 000 0 0 000 L, 0 a00a00 5 L, a 0 0 W V W N N L J J N a N d N U1 N N o N D N O D N W D N O m W D N O N D N O a .c W O w == ww m s m ry Kmm(nm a a Q > U D D o m EEm r U o o g m a O K v o d p E E o E E v c c o c c a > > 3 > a N N N N N N C) N m NNNN N N u w Z m o m J N N N J O O O O O O O O 0 0 0 0 0 0 0 Y O .. c C 0 C 0� C 0 - � 0 0 0� 0s a r m o o v v v v o o v v m v w E .. .. E E n E E E E y E E° W N C C N N'y N C C N N N C W p m 'm ❑ p� 0 'm 'm p O p y❑ 5 'm y O O O O O v.0 N O N N v L N O 0 00 p Q O o 0 O v o 0 0 0 0 a` a` a` a` a` a` Zz m wz w zzz 0 I I r Z w h O > p z U J <0= <J p W W J a 0 W a N Q< W ¢ > W W W w :2 O 'fL m U` Q � Q � > > > > > > > > > > > > > > > p R• Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q y J W J W J W J W J W J W J W J W J W J W J W J W J W J W J W s Hrr r�rrr rrrrrrr a QQQ QaQQQ QQQQQQQ 000 00000 0000000 wow m m w w w w w w w w w w W O o o moo m m o o n o m n ro Q o 0 0 0 o ar 0 m 0 rn 0 m 0 m 0 m 0 m 0 m 0 m 0 m 0 m 0 m 0 N N o N O N O NNN o 0 0 N 0 N 0 N 0 NNN 0 0 0 N 0 N C I R C U L A T I O N Table 3 -1 Level of Service Descriptions for Roadways PAGE 3 - 8 APRIL 13, 2010 Volume to Level of Capacity Service Flow Conditions Ratio A LOS A describes primarily free -flow operations at average travel speeds, o -o.6o usually about go percent of the free -flow speed for the arterial classification. Vehicles are completely unimpeded in their ability to maneuver within the traffic stream. Stopped delays at signalized intersections are minimal. B LOS B represents reasonably unimpeded operations at average travel o.61 -0.90 speeds, usually about 90 percent of the free -flow speed for the arterial classification. The ability to maneuver within the traffic stream is only slightly restricted and stopped delays are not bothersome. Drivers are not generally subjected to appreciable tension. C LOS C represents stable operations; however, ability to maneuver and o.71-o.8o change lanes in raidblock locations may be more restricted than at LOS B, and longer queues, adverse signal coordination, or both may contribute to lower average speeds of about 50 percent of the average free -flow speed for the arterial classification. Motorists will experience appreciable tension while driving. D LOS D borders on a range in which small increases in flow may cause a o.81 -o.90 substantial increase in delay and hence decreases in arterial speed. LOS D maybe due to adverse signal progression, inappropriate signal timing, high volumes, or some combination of these factors. Average travel speeds are about 40 percent of free -flow speed. E LOS E is characterized by significant delays and average travel speeds of o.9r -I.00 one -third the free -flow speed or less. Such operations are caused by some combination of adverse progression, high signal density, high volumes, extensive delays at critical intersections, and inappropriate signal timing. F LOS F characterizes arterial flow at extremely low speeds below one -third Over Loo to one- fourth of the free -flow speed. Intersection congestion is likely at critical signalized locations, with high delays and extensive queuing. Adverse progression is frequently a contributor to this condition. 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