smart parking introduction and best practices
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Smart Parking Introduction and Best Practices. Smart Growth / Smart Energy Toolkit. What is Smart Parking?. A progressive approach to parking that responds to the problems of oversupply and outdated parking design. Source: Jeffery Tumlin, Nelson Nygaard. Features of Smart Parking. - PowerPoint PPT PresentationTRANSCRIPT
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Smart Growth / Smart Energy Toolkit Smart Parking
Smart ParkingSmart ParkingIntroduction and Best PracticesIntroduction and Best Practices
Smart Growth / Smart Energy Toolkit
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Smart Growth / Smart Energy Toolkit Smart Parking
What is Smart Parking?What is Smart Parking?
A progressiveapproach to parkingthat responds to theproblems ofoversupply andoutdated parking design.
Source: Jeffery Tumlin, Nelson Nygaard
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Features of Smart Features of Smart ParkingParking
• Tailored Parking Requirements• Shared Parking• Demand Management• Parking Management Districts• “Park Once” Environments• Parking Facility Design
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The ProblemThe Problem• Inflexible
minimum requirements.
• Deterioration of community character.
• Loss of valuable land.
• Unwalkable environments.
• Excessive impervious surface.
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Where do our parking Where do our parking standards come from?standards come from?
• Two primary sources: – Nearby
municipalities– Institute of
Transportation Engineers (ITE)
• ITE rates are based on studies in suburban areas with high car dependency.
• ITE studies exhibit low statistical significance (R2).
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Reasons to Pursue Smart Reasons to Pursue Smart ParkingParking
• Increase parking efficiency.• Create a human-scaled environment. • Promote alternatives to single occupancy
vehicles. • Improve stormwater management.
Source: ABL Architecture
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Tailoring RequirementsTailoring Requirements
• Tailoring Minimums– Increase flexibility to account for local conditions:
• Density• Access to Transit• Demographics• Fees-in-lieu• Transportation Demand Management
• Establishing Maximums– Careful planning is needed to avoid overly
restrictive regulations.
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Tailoring Minimum Tailoring Minimum RequirementsRequirements
• Advantages– Direct method for
reducing oversupply.
– Project-to-project flexibility.
• Disadvantages– Allows developers
to exceed minimums.
– Does not constrain future demand.
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Establishing MaximumsEstablishing Maximums• Advantages
– Guaranteed results.– Promotes creative
solutions and use of existing parking facilities.
– Promotes alternative transportation options.
• Disadvantages– Can be overly restrictive.– Perceived risk for
developers and lending institutions.
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Shared ParkingShared Parking
Reduce minimum requirements bydemonstrating that different uses experiencetheir peak parking demand at different times.
Daytime Peak Demand
OfficesSchools
ChurchesBanks Shops
Nighttime Peak Demand
RestaurantsMovie Theaters
BarsHealth Clubs
Hotels
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Shared ParkingShared Parking
How to determine shared parking requirements:1. Determine minimum parking for each land separately.
2. Calculate the total parking required across each time period.
3. Set the minimum requirement at total number of spaces needed during the busiest time period.
Source: Montgomery County, Maryland Source: Montgomery County, MD
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Demand ManagementDemand Management
Strategies to managing parking demand:
• Investing in Transit• Transportation Demand Management Programs• Pricing Policies• Support Transit-Oriented Development (TOD)
and Traditional Neighborhood Design (TND)
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Investing in TransitInvesting in Transit
• High cost/high reward.• Requires a larger focus then just
reducing parking demand.
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Transportation Demand Transportation Demand Management (TDM)Management (TDM)
• Can be either publicly or privately administered.
• Goal of reducing single occupancy vehicles
• Program elements:– Employer subsidized transit– Incentives for carpooling– Car sharing– Cash-out programs– Peripheral parking with shuttles– Bicycle facilities
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Pricing PoliciesPricing Policies
• Its costs can be hidden in taxes, bundled with rent or purchase prices, or through a direct charge to the user.
• Parking pricing and funds can be managed to achieve economic and social goals.
Parking is Never Free
Source: Boston
Globe
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Parking Management Parking Management DistrictsDistricts
Designated areas in which parking isregulated through a variety of measures tomeet the needs of the district.
Advantages
Allows for flexibility and creative solutions. Can aggressively manage parking supply and allocate funds in moderate to high density mixed use districts.
Disadvantages
Requires staff to administrate.Inappropriate for use at smaller scales.
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Fees-in-lieuFees-in-lieu
• Fees to be paid by developers in lieu of providing their own parking on-site.
• Primary funding source for Parking Management Districts.
• Allows municipalities control over parking siting and aesthetics.
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Creating a “Park Once” Creating a “Park Once” EnvironmentEnvironment
• Make walking an easier choice by providing centralized parking facilities.
• Most appropriate tools:– Increase flexibility towards on-site requirements.– Establish a Parking Management District with
control over fees-in-lieu.– Shared Parking.
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School
Shop
PlayWork
PP
P
PPP
T TTTTT
TT
TTT
T
Conventional Development Source: Jeffery Tumlin, Nelson/Nygaard
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Mixed Use, Park Once District
School
Work
Play
Shop
P
TT
Results:
• <½ the parking
• <½ the land area
• ¼ the arterial trips
• 1/6th the arterial turning movements
• <¼ the vehicle miles traveled
Source: Jeffery Tumlin, Nelson/Nygaard
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Transit Oriented Development
School
Work
Play
ShopLive
Source: Jeffery Tumlin, Nelson/Nygaard
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Parking Facility DesignParking Facility DesignFour objectives to
SmartParking design:
1) Ensure that vehicles are not the dominant feature.
2) Minimize unnecessary impervious surface coverage.
3) Utilize Low Impact Development techniques.
4) Create a comfortable environment for pedestrians.
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the dominant featureEnsure that vehicles are not the dominant feature
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
1. Place parking facilities in the rear of buildings.Commercial/Mixed Use ContextCommercial/Mixed Use Context
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
1B. Place parking facilities in the rear of buildings. Residential ContextResidential Context
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
2. Establish appropriate landscape buffer requirements for parking facilities.
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
3. Large expanses of parking should be broken up with landscape islands and planted dividers.
Source: Henderson, NV
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
4. Establish architecture standards for structured facilities to incorporate them with surrounding buildings.
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Design Objective 1:Design Objective 1:Ensure that vehicles are not the Ensure that vehicles are not the
dominant featuredominant feature
5. Encourage underground facilities below buildings.
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Design Objective 2:Design Objective 2:Minimize unnecessary impervious surface coverageMinimize unnecessary impervious surface coverage
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1. Maximize on-street parking in front of buildings.
Design Objective 2:Design Objective 2:Minimize unnecessary Minimize unnecessary
impervious surface coverageimpervious surface coverage
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Design Objective 2:Design Objective 2:Minimize unnecessary Minimize unnecessary
impervious surface coverageimpervious surface coverage
2. Establish provisions for compact car spaces.
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Design Objective 2:Design Objective 2:Minimize unnecessary Minimize unnecessary
impervious surface coverageimpervious surface coverage 3. Establish provisions for parking requirements to be met with
unpaved reserve parking.
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Design Objective 2:Design Objective 2:Minimize unnecessary Minimize unnecessary
impervious surface coverageimpervious surface coverage
4. Encourage structured and automated parking.
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Design Objective 2:Design Objective 2:Minimize unnecessary Minimize unnecessary
impervious surface coverageimpervious surface coverage
5. Create incentives for using permeable pavers.
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Design Objective 3:Design Objective 3:Utilize Low Impact Development techniquesUtilize Low Impact Development techniques
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Design Objective 3:Design Objective 3:Utilize Low Impact Development Utilize Low Impact Development
techniquestechniques
1. Open sections encourage sheet flow to open channels where pollutants are removed through infiltration.
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Design Objective 3:Design Objective 3:Utilize Low Impact Development Utilize Low Impact Development
techniquestechniques 2. Vegetative swales direct stormwater into shallow bioretention
ponds that allow for infiltration while cleaning the water.
Vegetative Swale Bioretention Pond
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Design Objective 3:Design Objective 3:Utilize Low Impact Development Utilize Low Impact Development
techniquestechniques 3. Breaking parking into smaller lots facilitates more efficient
management of stormwater and enhances aesthetics.
Single large parking lot Multiple smaller parking lots
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Design Objective 4:Design Objective 4:Create a comfortable environment for pedestriansCreate a comfortable environment for pedestrians
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Design Objective 4:Design Objective 4:Create a comfortable Create a comfortable
environment for pedestriansenvironment for pedestrians
1. Implement traffic calming measures in and around parking facilities.
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Design Objective 4:Design Objective 4:Create a comfortable Create a comfortable
environment for pedestriansenvironment for pedestrians
2. Limit vehicle curb cuts to reduce conflicts between pedestrians and vehicles and create more space for on-street traffic.
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Design Objective 4:Design Objective 4:Create a comfortable Create a comfortable
environment for pedestriansenvironment for pedestrians
3. Provided well marked pedestrian pathways using alternative paving.
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Case Study 1: Case Study 1: CambridgeCambridge
• Urban setting with access to transit.
• Use of Parking and Transportation Demand Management Ordinance to increase private involvement in promoting alternative transport.
• Use of Underground Parking Exemption to encourage investment in non-surface parking facilities.
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• Suburban setting within commuter-shed of Boston.
• Use of shared parking bylaw to facilitate downtown residential parking.
• Use of compact car spaces and temporary reserve parking bylaw to limit unnecessary paving.
Case Study 2: Case Study 2: MarlboroughMarlborough
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• Small town setting with a handful of 2-3 story commercial buildings in town center.
• Amended zoning to allow off-site residential parking within town center to facilitate use of upper-stories for housing.
Case Study 3: Case Study 3: MiddleboroughMiddleborough
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Other examples of Smart Other examples of Smart Parking in MassachusettsParking in Massachusetts• Tailored
Minimum Requirements:– Ayer– Belmont– Braintree– Gloucester– Ipswich– Newton– Northampton– Norwood– Salem– Stoneham
• Fees-in-lieu:– Arlington– Ashburnham– Northampton– Oak Bluffs
• Parking Siting:– Acton– Beverly– Belmont– Braintree
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ConclusionsConclusions• Parking is a driving factor in the site design and
review process, dictating the quality of our built environment.
• Providing too much parking can be just as problematic as not providing enough.
• Smart Parking reframes the issue within the context of community character and environmental health.
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Don’t repeat the mistakes of Don’t repeat the mistakes of the past…the past…
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Smart Parking brings your Smart Parking brings your community closer to its goals.community closer to its goals.
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ResourcesResources• U.S. Environmental Protection Agency, Parking Spaces / Community
Places: Finding the Balance Through Smart Growth Solutions, January 2006: http://www.epa.gov/smartgrowth/parking.htm.
• Boston Metropolitan Area Planning Council, Sustainable Transportation Toolkit: Parking: http://transtoolkit.mapc.org/Parking/index.htm
• Jefferey Tumlin, "Getting Parking Right" - Presentation to the Massachusetts Smart Growth Conference, December 2006: www.mass.gov/envir/pdfs/sgconf_B4_tumlin.pdf.
• California Metropolitan Transportation Commission, Guide to Smart Growth Parking, Toolbox for Best Practices: http://www.mtc.ca.gov/planning/smart_growth/parking_study.htm
• Maryland Governor’s Office of Smart Growth, Driving Urban Environments: Smart Growth Parking Best Practices: http://www.contextsensitivesolutions.org/content/reading/parking_md/
• Victoria Transport Policy Institute, Online TDM Encyclopedia: http://www.vtpi.org/tdm/index.php#parking
• Christopher V. Forinash, et al., "Smart Growth Alternatives to Minimum Parking Requirements", July 2003: http://www.urbanstreet.info/
• Donald Shoup, "The Trouble With Minimum Parking Requirements", 1999: http://shoup.bol.ucla.edu/.
• Fitzgerald & Halliday, Inc., Northwest Connecticut Parking Study - Phase II: Model Zoning Regulations for Parking for Northwestern Connecticut, September 2003: http://www.fhiplan.com/PDF/NW%20Parking%20Study/NW%20Connecticut%20Parking%20Study%20Phase%202.pdf