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Home My WebLink About2009-07-06; Traffic Safety Commission; ; Remove shrubs/hedges growing on the southeast comer of Davis Avenue (west) /Knowles Avenue for corner sight visibilityC CITY OF CARLSBAD TRAFFIC SAFETY COMMISSION STAFF REPORT COMMISSION MEETING OF: July 6, 2009 LOCATION: INITIATED BY: Davis Avenue (west) at Knowles Avenue Robert Richards 2648 Davis A venue Carlsbad, CA 92008 ITEMNO.6A REQUESTED ACTION: Remove shrubs/hedges growing on the southeast comer of Davis Avenue (west) /Knowles Avenue for comer sight visibility. BACKGROUND: Staff received a letter (attached) from Mr. Richards asking that shrubs and hedges located on the southeast comer of Davis Avenue (west) and Knowles Avenue be removed to provide for comer sight visibility. This intersection is located in the northwest quadrant of the City of Carlsbad. DATA: Davis Avenue intersects Knowles Avenue (see Exhibit 1) at two locations in an "off-set" intersection configuration ( about 140 feet between the two intersections) that establishes two separate intersections of Davis A venue (west)/Knowles A venue and Davis A venue (east)/Knowles Avenue. Both of these intersections with Knowles Avenue are a T- intersection configuration. The subject intersection is located in an older residential neighborhood of single family homes between Jefferson Street and Interstate Highway 5. Davis Avenue (west) is considered the terminating leg/stem of the T-intersection with Knowles Avenue representing the through street or top of the T-intersection. Davis Avenue (west)/Knowles Avenue is currently an uncontrolled intersection (does not have the right-of-way assigned by a yield, stop sign or a traffic signal). Application of the right-of-way rule requires drivers on the terminating leg (Davis Avenue (west)) to yield the right-of-way to drivers on Knowles Avenue, the through street. The single family home at 1095 Knowles A venue is located on the southeast comer of this intersection and has shrubs/hedges (about 4.5 ft. high) growing at the curb along the property frontage on both Davis A venue and Knowles A venue. This growth reduces sight visibility for drivers looking to their right ( east) from Davis A venue (west). Davis Avenue (west) is not classified on the Circulation Element of the General Plan and functions as a local residential street. It has a curb-to-curb width of 36 feet. The street was constructed with rolled curb and gutter, no sidewalk on either side of the street, and street lights attached to power poles located at the intersections of Davis Place/Davis C CITY OF CARLSBAD TRAFFIC SAFETY COMMISSION STAFF REPORT COMMISSION MEETING OF: July 6, 2009 ( continued) ITEMNO. 6A Avenue (west), Davis Avenue (west)/Laguna Drive, and at the intersection of Davis Avenue (east)/Knowles Avenue. Knowles A venue also is not classified on the Circulation Element of the General Plan. It has a curb-to-curb with of 36 feet with high back curb and gutter, no sidewalk on either side of the street, and street lights attached to power poles. Knowles A venue has a daily two-way traffic volume of 438 vehicles between Davis Avenue (west) and Davis Avenue (east) based on a traffic count on April 30, 2009. A posted speed limit of 25 mph is found on Knowles A venue. Field measurements were made to determine the length of existing comer sight distance available to a driver stopped on Davis Avenue (west) to view vehicles approaching on Knowles Avenue. Staff found that a northbound driver on Davis Avenue (west) has about 145 feet of comer sight distance looking to the east on Knowles A venue when the driver position is 10 feet back from the curb projection on Knowles Avenue. The measured sight distance is 130 feet less than the standard 7-1/2 second value of comer sight distance of 275 feet required for a 25 mile per hour-street as specified in the Caltrans Highway Design Manual Sixth Edition. The standard comer sight distance provides 7-1/2 seconds for the driver on the crossroad (Davis Avenue (west)) to complete the necessary maneuver (right or left tum) without requiring traffic on the through street (Knowles Avenue) to radically alter their speed. The Caltrans Highway Design Manual also acknowledges that in some cases, where restrictive conditions exist, the cost to obtain the 7-1/2 seconds of comer sight distance may be excessive, and a lesser value of comer sight distance may be used. In such cases, the minimum value for comer sight distance is equal to the stopping sight distance (copies of sheets 400-7, 8 & 9, & 200-1 of the Caltrans Highway Design Manual are attached). At this location, due to the restrictive conditions of the existing shrubs/hedges, 150 feet is the minimum value used for comer sight distance for these two 25 mile per hour local streets (150 feet is the stopping sight distance for 25 mph). The 145 feet of measured sight distance is five feet less than the 150 foot minimum value for comer sight distance on a 25 mile per hour-street. In addition, comer sight distance increases looking to the east as drivers on Davis Avenue (west) move forward and closer to Knowles Avenue. The comer sight distance is limited looking to the east from Davis Avenue (west) by the shrubs/hedges growing near the southeast comer at 1095 Knowles Avenue (see Exhibit 2). Due to the small reduction in comer sight visibility, based on driver position, and the fact this intersection is uncontrolled, staff also field measured the distance for the safe approach speed to the intersection. This measurement was conducted as the installation of a stop sign may warrant consideration on the terminating leg/stem of a T-intersection C CITY OF CARLSBAD TRAFFIC SAFETY COMMISSION STAFF REPORT COMMISSION MEETING OF: July 6, 2009 ( continued) ITEMNO. 6A when the safe approach speed to the intersection for a driver on the terminating leg is less than 10 miles per hour due to visibility limitations. A driver on the terminating leg of a T-intersection, when traveling towards the intersection, reaches a decision point where it is necessary to determine if braking to a stop is required because of a vehicle approaching on the through street may constitute a conflict. The location of the decision point on the terminating leg must allow the driver sufficient distance to view, to both the driver's right and left, all approaching vehicles on the through street. The driver on the terminating leg, generally not having the right-of-way, can then initiate actions to slow, stop, or avoid a conflict with other vehicles, as necessary, when the required minimum clear sight triangle distances are provided (see Exhibit 3). For local streets, the terminating leg (minor street) decision point is assumed to be 50 feet from the intersection conflict point when the vehicle on the minor street has an approach speed of 10 miles per hour. The design speed for a local street is 25 miles per hour as specified in the Carlsbad Engineering Department Design Standards. A distance of 150 feet (stopping sight distance for 25 miles per hour in accordance with the Sixth Edition of the Caltrans Highway Design Manual) along the through street must be provided to drivers on the terminating leg to view vehicles approaching the intersection. Installation of a stop sign is considered to positively assign the right-of-way if a vehicle on the through street cannot be seen at the point of its minimum stopping sight distance from the intersection conflict point when a driver on the terminating leg is at the decision point. Field measurements found that at the decision point a northbound driver on Davis Avenue (west) has sight visibility limited to approximately 80 feet when looking east for approaching westbound vehicles on Knowles A venue. Looking to the west, a northbound driver on Davis Avenue (west) has sight visibility limited to approximately 66 feet. Line of sight limitations on the southeast comer of the intersection result from the shrubs/hedges at the curb and extending along the property frontage on Davis A venue and Knowles A venue. Line of sight limitations on the southwest comer of the intersection are due to shrubs growing near the comer on Knowles A venue. CONCLUSION: In summary, a driver stopped on Davis Avenue (west) has about 145 feet of comer sight distance looking to the east on Knowles A venue, which is five feet less than the 150 foot minimum value specified for comer sight distance on a 25 mile per hour-street where restrictive conditions exist. However, field measurement of the distances for the safe approach speed to the intersection were found to be substantially less than the 150 feet required to be provided along the through street (from the decision point on Davis Avenue (west) a driver has sight visibility limited to approximately 80 feet looking to the east, and approximately 66 CITY OF CARLSBAD TRAFFIC SAFETY COMMISSION STAFF REPORT COMMISSION MEETING OF: July 6, 2009 ITEMNO. 6A ( continued) feet to the west). Consequently, the 10-mile per hour safe approach speed to the intersection is not being met for drivers on Davis Avenue (west) to view approaching vehicles on Knowles A venue. Therefore, installation of a yield or a stop sign can be considered on Davis Avenue (west) to address the line of sight limitations. It should be noted that significant shrub/hedge removals would be required at the intersection on both the southeast and southwest corners to increase the line of sight distances in both directions to provide a 10-mile per hour safe approach speed on Davis Avenue (west) at Knowles Avenue. RECOMMENDATION: To address reduced sight distance at this intersection, the Traffic Safety Coordinating Committee recommends: • Installation of a STOP sign on Davis Avenue (west) at its intersection with Knowles A venue. • Do not remove any shrubs or hedges on either corner. • Send a letter to the resident at 1095 Knowles A venue requesting that they trim the hedges along their property frontage on Davis Avenue (west) and Knowles Avenue back vertically to the back of the rolled concrete curb. NECESSARY CITY COUNCIL ACTION: The City Council must adopt an ordinance to establish the stop control on Davis A venue (west) via installation of a stop sign, as recommended. 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If/ c;, / "'T' /4..-,,,:,.,c,,.,-~ 12,e., A C-----<-0 7'"' //If" -c /c, £A--~ft-J,,,,~ r#c Mu/' /{AY'1? ,///!?-6-;r//~sc. '3 ?--.5#~ ~ ,P ,)e..Cp C::,c...-;:,- CATION MAP BUENA VISTA LAGOON ,-: "' LEGEND: ,----.. I I I I = PROJECT LOCATION BUENA PL KNOWLES A 1/f.. G) = PROPOSED STOP SIGN ~ = EXISTING STOP SIGN YOURELL AV£.. l BUENA VISTA WY. PROJECT NAME INTERSECTION OF DAVIS AVENUE (WEST)/ KNOWLES AVENUE H:\Transportation\AutoCAD\Rehfeldt\Location Maps\Davis Ave-Knowles-ex.1 NTS EXHIBIT 1 1- KNOWLES AVENUE ---------275' (7-1/2 SECOND) -----: I 150' REQUIRED • 1 ·~....1··',1 ----145' ACTUAL----~•! ~ (MEASURED) -~1 ~ CURB PROJECTION --=----_":---. ____ T ------~~.._..----.c....~~__.....,::::::.- 10· TITLE _l_.1..--_-i DRIVER/ POSITION SHRUBS/HEDGES ~4.5 FT. HIGH 1095 KNOWLES A VE. SHRUBS/HEDGES ~4.5 FT. HIGH NOTE: FIELD MEASUREMENTS OBTAINED ON 04/21/09 DAVIS AVENUE (WEST)/ KNOWLES AVENUE EXISTING CORNER SIGHT DISTANCE H:\Transportation\AutoCAD\Rehfeldt\Location Maps\Davis Ave-Knowles-ex.2C ~I IXl1 I NTS EXHIBIT 2 KNOWLES AVENUE ------150' REQUIRED-------'• I CONFLICT POINT~ ~ i-------80' ACTUAL (MEASURED) T NTS NTS TITLE 50' DECISION POINT/ \.EQUIRED LINE OF SIGHT SHRUBS/HEDGES ~4.5 FT. HIGH 1 150' REQUIRED • 66' ACTUAL---~ / CONFLICT POINT REQUIRED LINE OF SIGHT (MEASURED) T 50' SHRUBS/HEDGES ~4.5 FT. HIGH NOTE: FIELD MEASUREMENTS OBTAINED ON 04/21/09 KNOWLES AVENUE NOTE: FIELD MEASUREMENTS OBTAINED ON 04/21/09 SHRUBS/HEDGES ~4.5 FT. HIGH DAVIS AVENUE (WEST)/ KNOWLES AVENUE INTERSECTION APPROACH SIGHT TRIANGLE EXHIBIT 3 H:\Transportation\AutoCAD\Rehfeldt\Location Maps\Davis Ave-Knowles-ex.3B C IDGHWAY DESIGN MANUAL 400-7 September 1, 2006 404.3 Turning Templates (I) General. The truck-turn template is a design aid for locating the wheel paths of large vehicles as they turn through at-grade intersections. Consideration should be given to the overhang of the truck, where the body of the truck slightly extends (approximately 2 feet) beyond the wheel path. The template is useful for dete.lJJljning comer radii, for positioning island noses, and for establishing clearance to bridge piers, signal poles, and other hardware at intersections. Templates can help determine the width of a channeled separate turning lane, Topic 407 illustrates scaled turning templates for the various design vehicles and turning radii. (2) STAA Truck. The STAA truck-turn templates should be used in the design of all new interchanges and intersections on the National Network and on routes leadins from the National Network to designated service and terminal routes. On rehabilitation projects they should be used at interchanges and intersections proposed as service or terminal access routes. In some cases, factors such as cost, right of way, environmental issues, local agency desires, and the. type of community being served may limit the use of the ST AA templates. In those cases, other . appropriate templates should be used. The minimum practical turning radius is 50 feet. However, the 60-foot radius develops less swept width and may have an advantage. The 60-foot radius should be used in most situations, but the 50-foot radius is acceptable in restricted situations. (3) California Truck. The California truck-tum template should be used in the design of highways not on the National Network. The minimum practical turning radius is 50 feet. (4) Bus. At intersections where truck volumes are light or where the predominate truck traffic consists of mostly 3-axle and 4-axle units, the bus turning template may be used. Its wheel paths sweep a greater width than 3-axle delivery trucks and the smaller buses such as school buses, but a slightly lesser width than a 4-axle truck. Topic 405 -Intersection Design Standards 405.1 Sight Distance (1) Stopping Sight Distance. See Index 201.1 for mjnimum stopping sight distance requirements. (2) Comer Sight Distance. (a) General--At unsignalized intersections a substantially clear line of sight should be maintained between the driver of a vehicle waiting at the crossroad and the driver of an approaching vehicle. Adequate time must be provided for the waiting vehicle to either cross all lanes of through traffic, cross the near lanes and tum left, or tum right, without requiring through traffic to radically alter their speed. The values given in Table 405. lA provide 7-1/2 seconds for the driver on the crossroad to compJete the necessary maneuver while the approaching vehicle travels at the assumed design speed of the main highway. The 7-1/2 second criterion is normally applied to all lanes of through traffic in order to cover all possible maneuvers by the vehicle at the crossroad. However, by providing the standard corner sight distance to the lane nearest to and farthest from the waiting vehicle, adequate time should be obtained to make the necessary movement. On multilane highways a 7-1/2 second criterion for the outside lane, in both d.irections of travel, normally will provide increased sight distance to the inside Janes. Consideration should be given to increasing these values on downgrades steeper than 3 precent and longer than 1 mile (see Index 201.3), where there are high truck volumes on the crossroad, or where the skew of the intersection substantially increases the distance traveled by the crossing vehicle. C 400-8 HIGHWAY DESIGN MANUAL September 1,2006 ------------------------------------ In determining corner sight distance, a set back distance for the vehicle waiting at the crossroad must be assumed. Set back for the driver on the crossroad shall be a minimum of 10 feet plus the shoulder width of the major road but not less than 15 feet. Corner sight distance is to be measured from a 3.5-foot height at the location of the driver on the minor road to a 4.25-foot object height in the center of the approaching lane of the major road. If the major road has a median barrier, a 2-foot object height should be used to determine the median barrier set back. In some cases the cost to obtain 7-1/2 seconds of comer sight distances may be excessive. High costs may be attributable to right of way acquisition, building removal, extensive excavation, or unmitigable environmental impacts. In such cases a lesser value of comer sight distance, as described under the following headings, may be used. (b) Public Road Intersections (Refer to Topic 205)--At unsignalized public road intersections (see Index 405.7) corner sight distance values given in Table 405.IA should be provided. At signalized intersections the values for comer sight distances given in Table 405. lA should also be applied whenever possible. Even though traffic flows are designed to. move at separate times, unanticipated vehicle conflicts can occur due to violation of signal, right turns on red, malfunction of the signal, or use of flashing red/yellow mode. Where restrictive conditions exist, similar to those listed in Index 405.1(2)(a), the minimum value for corner sight distance at both signalized and unsignalized intersections shall be equal to the stopping sight distance as given in Table 201.1, measured as previously described. ( c) Private Road Intersections (Refer to Index 205.2) and Rural Driveways (Refer to Index 205.4)--The minimum corner sight distance shall be equal to the stopping sight distance as given in Table 201.1, measured as previously described. (d) Urban Driveways (Refer to Index 205.3)- Comer sight distance requirements as described above are not applied to urban driveways. (3) Decision Sight Distance. At intersections where the State route turns or crosses another State route, the decision sight distance values given in Table 201 7 should be used In computing and measuring decision sight distance, the 3.5-foot eye height and the 0.5-foot object height should be used, the object being located on the side of the intersection nearest the approaching driver. The application of the various sight distance requirements for the different types of intersections is summarized in Table 405. IB. (4) Acceleration Lanes for Turning Moves onto State Highways. At rural intersections, with stop control on the local cross road, acceleration lanes for left and right turns onto the State facility should be considered. At a minimum, the following features should be evaluated for both the major highway .and the cross road: • divided versus undivided • number of lanes • design speed • gradient • lane. shoulder and median width . traffic volume and composition . turning volumes . horizontal curve radii • sight distance • proximity of adjacent intersections • types of adjacent jntersections For additional information and guidance, refer to AASIITO, A Policy on Geometric Design of Highways and Streets, the Headquarters Traffic Liaison and the Design Coordinator. IDGHW A Y DESIGN MANUAL 400-9 September 1, 2006 Table 405.1A Corner Sight Distance (7-1/2 Second Criteria) Design Speed (mph) 25 30 35 40 45 50 55 60 65 70 Comer Sight Distance (ft) 275 330 285 440 495 550 605 660 715 770 Table 405.1 B Application of Sight Distance Requirements Intersection Sisht Distance Tl'.Ees Stoeeins Comer Decision Private Roads X xi) Public Streets and X X Roads Signalized X (2) Intersections State Route Inter-X X X sections & Route Direction Changes, with or without Signals (]) lfaing l!iopp.ing mgbt diinanoo 111:tw(;rn llJl eyo bcight of3,5 ft l!lld llll object height of 4.25 ft. See Index 405.1(2Xa) for setback requirements. (2) Apply rorncr sight distance requirements at signalized intersections whenever possible due to unanticipated violations of the signals or malfunctions of the signals. See Index 405.1 (2Xb ). 405.2 Left-tum Channelization (I) General. The purpose of a left-tum lane is to expedite the movement of through traffic, control the movement of turning traffic, increase the capacity of the intersection, and improve safety characteristics. The District Traffic Branch normally establishes the need for left-tum lanes. See "Guidelines for Reconstruction of Intersections," August 1985, published by the California Division of Transportation Operations. (2) Design. Elements. (a) Lane Width --The lane width for both single and double left-turn lanes on State highways shall be 12 feet. Under certain circumstances (listed below), left- tum lane widths of 11 feet or as narrow as 10 feet may be used on RRR or other projects on existing State highways and on roads or streets under other jurisdictions when supported by an approved design exception pursuant to Index 82.2. When considering lane width reductions adjacent to curbed medians, refer to Index 303.5 for guidance on effective roadway width; which may vary depending on drivers' lateral positioning and shy distance from raised curbs. • On high speed rural highways or moderate speed suburban highways where width is restricted, the minimum width of single or dual left-tum lanes may be reduced to 11 feet. • In severely constrained situations on low to moderate speed urban highways where large trucks are not expected, the minimum width of single left-tum lanes may be reduced to 10 feet. When double left-tum lanes are warranted under these same circumstances the width of e@b lane shld1 be no less than I I feet. This added width is needed to assure adequate clearance between turning vehicles. IDGHW A Y DESIGN MANUAL 200-1 September I, 2006 CHAPTER200 GEOMETRIC DESIGN AND STRUCTURE STANDARDS Topic 201 -Sight Distance Index 201.1 -General Sight distance is the continuous length of highway ahead visible to the driver. Four -types of sight distance are considered here: passing, stopping, decision, and comer. Passing sight distance is used where use of an opposing lane can provide passing opportunities (see Index 201.2). Stopping sight distance is the minimum sight distance to be provided on multilane highways and on 2-lane roads when passing sight distance is not economically obtainable. Stopping sight distance also is to be provided for all elements of interchanges and intersections at grade, including private road connections (see Topic 504, Index 405.1, & Figure 405.7). Decision sight distance is used at major decision points (see Indexes 201.7 and 504.2). Corner sight distance is used at intersections (see Index 405.1, Figure 405.7, and Figure 504.3J). Table 201.1 shows the standards for stopping sight distance related to design speed, and these shall be the minimum values used in design. Also shown are the values for use in providing passing sight distance. Chapter 3 of "A Policy on Geometric Design of Highways and Streets," AASHTO, contains a thorough discussion of the derivation of stopping sight distance. 201.2 Passing Sight Distance Passing sight distance is the mm1mum sight distance required for the driver of one vehicle to pass another vehicle safely and comfortably. Passing must be accomplished assuming an oncoming vehicle comes into view and maintains the design speed, without reduction, after the overtaking maneuver is started. Table 201.1 Sight Distance Standards Design Speed(!) Stopping(2) Passing (mph) (ft) (ft) 20 125 800 25 150 950 30 200 l,100 35 250 1,300 40 300 1,500 45 360 1,650 50 430 1,800 55 500 1,950 60 580 2,100 65 660 2,300 70 750 2,500 75 840 2,600 80 930 2,700 (l) See Topic 101 for selection of design speed. (2) For sustained downgrades, refer to advisory standard in Index 201.3 The s1ght rustance available for passing at any place is the longest distance at which a driver whose eyes are 3 feet ½ inch above the pavement surface can see the top of an object 4 feet ¼ inch high on the road. See Table 20 U for the calculated values that are associated with various design speeds. In general, 2-lane highways should be designed to provide for passing where possible, especially those routes with high volumes of trucks or recreational vehicles. Passing should be done on tangent horizontal alignments with constant grades or a slight sag vertical curve. Not only are drivers reluctant to pass on a tong crest vertical curve, but it is impracticable to design crest vertical curves to provide for passing sight distance because of high cost where crest cuts are involved. Passing sight distance for crest vertical curves is 7 to 17 times longer than the stopping sight distance. Ordinarily, passing sight distance is provided at locations where combinations of alignment and