Tag Archives: transportation

NEPC 29th Annual Conference and Tradeshow

The NEPC Annual Conference and Trade Show brings together parking and transportation professionals from universities, municipalities, hospitals, airports and from the private sector. More than 250 attendees will gather in Boston for two days of education and networking. Forty vendors will exhibit the latest in parking and transportation products and services.

Join NEPC at the Seaport Hotel in Boston, MA for our 29th Annual Spring Conference & Tradeshow! This is a great opportunity for networking with professionals in the industry, earning CAPP points and learning about the latest programs and products in parking and transportation.

IPMI Webinar: Reimagining a Sustainable, Resilient Workforce for Curbside Management

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On-Demand: $35.00 for IPMI Members, $85.00 for Non-Members

Description:

There is disruption occurring across cities relating to curbside management. Between innovation and intensifying mobility demands, the traditional management of the curb is being jostled to meet those demands. In municipalities across the US, there is recognition to have a Curbside Management Divisions (CMDs) effectuate the wholesale management of the curb. This webinar looks to highlight a peer review of municipal best practices and engage in an industry dialogue on the municipal curbside management workforce.

Objectives:

Identify principles and guidance in building and sustaining a municipal curbside management team
Compare needs and demands among municipal entities and industry partners regarding the future of municipal curbside management
Identify workforce development principles to recruit and retain curbside management talent

Presenters:

Benito O. Pérez is a Curbside Management & Operations Planning Manager with the District Department of Transportation. In his capacity, he works on managing a team involved with creating, accessing, analyzing, visualizing, disseminating, and working with stakeholders to leverage data for policy development, resource allocation, and operations management of the District’s curbside.

Evian Patterson heads up curbside management in the District of Columbia with a focus on implementing data-driven solutions. He leads teams in managing more than 12,000 smart meter assets for 19,000+ on-street spaces, with 50+ percent of transactions in mobile payments, as well as regulating residential parking. In 2016, he oversaw the expansion of the parking division for next-generation curbside management operations to include access for taxis, buses, freight, and transportation network companies.

IPMI Webinar: Considering an Alternative to Adaptive Reuse

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IPMI Member Rate: $35 per webinar, live or on-demand.
IPMI Member Bundle: $99 for five live webinars in 2020 (August through December 2020).
IPMI members always buy three and receive the fourth free!
Contact professionaldevelopment@parking-mobility.org to purchase.
Non Member Rate: $85 per webinar.

Description:

This presentation will explore how we need to be adaptive in our mindset on how we manage and implement parking in our downtowns and on our campuses, looking at exterior factors like growth, changing transportation demographics, and evolving policies to support better densification and evolution of our downtowns. The presentation will focus on a concept called the surface parking exit strategy, that attempts to right-size parking and help communities grow with changing needs.

Presenters:

Brett Wood, P.E. CAPP has over 15 years of experience as a parking and mobility consultant, working throughout North America to help his clients find creative and implementable solutions. Brett’s passions include right-sized parking, data-driven solutions, and helping to shape a future for the industry that adapts well to the rapidly occurring disruptions around it. Brett serves as co-chair of the IPMI Research and Innovation Task Force, focusing on industry-leading projects around curb management, mobility, benchmarking, and more.

IPMI Blog, Resources

Midwestern Values in Transportation

December 6, 2019 Kim Fernandez Leave a comment

By Shawn Conrad, CAE

At a recent IPMI-hosted event focused on parking and mobility professionals in the Midwestern region of the U.S., we heard from many business and transportation thought-leaders–experts who know parking management techniques and technologies and current trends.

A presentation from the Verdis Group highlighted consumer research from Omaha, Neb. Many of the questions focused on identifying additional ways to enhance Omaha’s transportation environment while stimulating economic development. Omaha commuters shared their perspectives about how they get to and from work and their preferences regarding several mobility and transportation issues. Omaha’s commuters are interested in active commuting options (walking, bicycling, riding the bus, or carpooling). Many of the survey respondents are seeking alternative transportation opportunities, and transportation leaders say this will continue to increase in the next decade as new forms of mobility come on the market.

The survey concluded with the following key findings for business leaders, politicians, and transportation officials to consider when seeking to revitalize Midwestern urban areas and entice people (millennials) to live and work downtown. The six recommendations are:

Employers should create active commuting programs for employees.
Increase investment in active transportation infrastructure of all types.
Address the parking perception issue, organize the parking system more efficiently, and eliminate parking minimums.
Pursue and support transit-oriented development.
Improve walkability.
Convert one-way streets to two-way streets.

To read more about the survey, go to verdisgroup.com.

Shawn Conrad, CAE, is IPMI’s CEO.

IPMI On-Demand Webinar: Micro-mobility and Parking: First and Last-Mile Options and What They Mean for Your Operation

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On-Demand Webinar: $35.00 for IPMI Members, $85.00 for Non-Members

This presentation, offered by the IPMI Technology Committee, provides an overview of first and last-mile mobility services and they can collaborate with your parking operations. The presentation reviews the various micromobility options available and how they can fit into your existing parking operations. The presentation will review the pros and cons of each mobility service and the importance of integrating data sharing so a Mobility Professional can excel. The presentation also provides an overview of the Alliance for Parking Data Standards and how these standards will reduce your system integration costs and improve your access to data.

Objectives:

Summarize micromobility options that are available and review the pros and cons of each.
Share strategies to integrate micromobility into parking and transportation operations.
Provide an overview of the critical nature of international data standards and the APDS and how it can be applied to streamline operations.

Presenters:

Nathan Donnell, CAPP is an innovative technology strategist who comes up with fresh ideas and new systems in the parking and mobility industry. Nathan is the Director of Curbside Management Solutions for Conduent and has 15 years of experience in the parking and transportation industry. He has extensive experience working with municipalities, universities, and private operators to enhance their parking programs with the use of technology that makes parking and transportation more efficient. Nathan attended Grand Canyon University where he majored in Business Management.

IPMI On-Demand Webinar: Supporting Mobility in an Open Environment

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On-Demand Fee: $35.00 for IPMI Members, $85.00 for Non-Members

Description:

When it comes to mobility, the future of parking is here. You just need to know where to look. Parking professionals across the globe are seeking new ways to promote mobility and apply planning approaches and new technologies to their mobility challenges. We can learn much by looking to the experiences of parking professionals in other parts of the world…the challenges they face and the strategies and tools they are utilizing to overcome those challenges.

In this webinar, we will examine the most common challenges facing us in promoting and perfecting mobility. How do we apply technology to help people get to their destinations more freely and conveniently? What are the most exciting technologies, particularly apps, for promoting mobility? How do we make these technologies integral to the lives of commuters and travelers, without risking app fatigue or burnout? And finally, what can we learn from parking professionals in other parts of the world who have addressed these very issues?

Objectives:

The most common challenges we face in promoting mobility.
What parking professionals in Europe and other parts of the world are doing to overcome these challenges.
How this knowledge these approaches can be applied in the U.S. and Canada.

Presenter:

Roamy Valera, CAPP, PayByPhone’s CEO, Canada, and the US, is an internationally respected leader with over 30 years of parking industry experience. Roamy oversees the day-to-day operations of PayByPhone in the US and Canada and its growth strategy throughout North America. Roamy is also known throughout the industry as a parking and mobility visionary, and as chair of IPMI’s board of directors, he was instrumental in the industry’s evolving focus on Mobility as a Service (MaaS).

IPMI Webinar: Utilizing Technology: A How-To Guide on Converting to a Virtual and Electronic Parking Environment

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Live Online Webcast: $35.00 for IPMI Members, $85.00 for Non-Members

Description: In an industry where parking technology is evolving more rapidly than many can wrap their minds around, how does one know what technologies to leverage and how they can truly benefit their organization? The “Utilizing Technology: A How-To Guide on Converting to a Virtual and Electronic Parking Environment” presentation will take attendees behind the scenes regarding how UNC Charlotte decided to use new technology to operate using virtual permits and electronic citations, connect both mobile and fixed license plate recognition (LPR) systems together for complete campus coverage, and how the project was designed and implemented while also discussing lessons learned along the way. At the end of the presentation, attendees should have a clear understanding of what it would take to operate in a virtual and electronic parking environment and if this type of technology is the right fit for their organization.

Objectives:

Identify processes and technologies that make up a virtual and electronic parking system.
Identify key talking points that will help make a decision as to if the virtual/electronic environment is the right fit for an organization
Identify steps needed to develop a formal and effective RFP for a virtual/electronic parking system

Presenter:

Doug Lape has over 19 years of parking and transportation industry experience. Prior to arriving at UNC Charlotte in November of 2015, Lape spent the majority of his professional career at The Ohio State University in Columbus and Ohio University in Athens. Lape also spent 4 years in parking industry sales with Signature Control Systems. Lape is a graduate of Ohio State University and resides in Charlotte with his wife, Anne and Stepson, Adam.

Parksmart Advisor Training – October 13, 2020

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Parksmart Advisors lead clients through the certification process for sustainable parking structures. The Parksmart program is now offered under by the USGBC/GBCI alongside the suite of LEED and other sustainability rating systems. IPMI is the USGBC Education Partner providing the education required to earn this valuable certificate.

This is a four-day course. The class will take place on each of the four specified days from 11:00 a.m. EST until 12:30 p.m. EST:

October 13
October 15
October 20
October 22

You must attend all four sessions and pass the end of course assessment to become a Parksmart Advisor. All Parksmart Advisors are listed on USGBC’s website. Due to the online interactive nature of this course, this course is limited to 14 attendees.

Cost:

Member rate: $275
Non-member rate: $495
Bulk rate discount of 20% available for organizations that enroll seven or more individuals. Please contact professionaldevelopment@parking-mobility.org to enroll your organization.

Learning Objectives:

Illustrate and detail the specific management, programmatic, technological, and structural elements of certification
Evaluate a parking facility, including the tools, process, and procedures for submitting facilities for certification
Evaluate case examples against the Standard and determine acceptability or changes.
Illustrate acceptable versus non-acceptable evidence for certification application.
Review the Parksmart scorecard.

Course Materials:

All participants are required to purchase the Parksmart Standard in addition to the cost of the course. To purchase the Standard, click here – https://www.usgbc.org/resources/parksmart-certification-standard

Course Credits: 9 CAPP Points/9 GBCI Credits

For more information, contact professionaldevelopment@parking-mobility.org.

Parking & Mobility Article, Resources, Transportation & Mobility

An Automatic Winner

October 1, 2019 Rachel Yoka Leave a comment

A Philadelphia project adds automated parking and gains fast loyalty with residents.

By Ian Todd

PRESCRIBED PARKING MINIMUMS and concern about the anticipated effect of autonomous vehicles (which some would argue is overhyped) may help form developers’ views on the importance of parking. However, some developers view parking, or rather fully automated parking, as an essential amenity in their developments and have even found it to be the amenity buyers value the most. One such developer is Scannapieco Development Corporation (SDC) based in Philadelphia, Pa.

SDC recently implemented an 86-space fully automated parking system in its 500 Walnut project. 500 Walnut, a 26-story residential tower at the corner of Philadelphia’s Fifth and Walnut streets features 35 condominium residences and an impressive list of high-end amenities that make it one of the city’s most exclusive, luxurious residential projects to date.

The 500 Walnut Project Targeting the ultra-high-end residential market, SDC has had the ongoing record of the highest condominium sale price in the city for almost 10 years. To help to ensure this project’s success, SDC looked to improve its list of high-end amenities for 500 Walnut by implementing an automated parking garage. SDC sought a vendor that could provide a system that used multiple pieces of equipment to park and retrieve vehicles, providing greater system redundancy, which minimizes system downtimes and increases convenience for residents. The system also had to provide full support services
such as 24-hour remote monitoring and support and the ability to be onsite within a very short timeframe should an issue arise.

The Parking System

The state-of-the-art, 86-space automated parking system is located in the basement of 500 Walnut. Westfalia worked closely with SDC and project architect Cecil Baker + Partners to ensure the parking system efficiently integrated with the building structure and maintained the ultra-luxury aesthetics where the residents interacted with the parking system in the two transfer areas on the first floor. Opened in early 2018, 500 Walnut uses a system that collects vehicles directly from the concrete floor of the two basement levels, allowing a high throughput.

Residents of 500 Walnut drive up to the building and a transponder in their vehicle sends a message to open the outer garage-style door, allowing them to enter the luxurious marble auto court area. Once in the auto court, the outer door closes and a transparent transfer area door opens in front of them, allowing them to park their vehicles in the correct position with guidance from an instruction screen. The residents then use a sleek touch screen immediately outside the transfer area to answer a set of standard questions and confirm they wish to park their vehicle in the system; the transfer area door then closes, and the automated system handles the rest. Residents have then completed the parking process in a private, hassle-free manner and then take the personal elevator to their condominium. No one has to get into the resident’s vehicle, meaning residents can safely leave their personal belongings in the car without fear of tampering.

Once the transfer area door has closed and locked, the system scans the transfer area to ensure there are no people present. The vehicle is then lowered to a basement level where the mechanism drives under the vehicle, clamps its wheels, and transports it onto the transfer car. The vehicle lift can then return to the ground floor to allow another vehicle to enter the transfer area while the previous vehicle is being parked.

To retrieve their vehicles, residents can either swipe their fob at the reader in the personal elevator or at one of the fob readers immediately outside the transfer areas (or they can call down to the concierge to retrieve their vehicle for them). Once their fob has been read, the system retrieves the vehicle from its parked location and moves it to the vehicle lift, which raises the resident’s vehicle to a transfer area on the ground floor. On one of the touch screens adjacent to the transfer areas, the residents are given an estimated wait time—which averages just over two minutes—for their vehicle to be returned to the transfer area. When the vehicle lift is at the ground floor, the door opens, allowing the resident to enter the vehicle and drive it forward out of the transfer area to exit the property on to Fifth Street. The transfer area door closes as soon as the sensors indicate the vehicle is no longer present.

The parking system at 500 Walnut is equipped with two levels of parking with two individual transfer cars that can move within an aisle to store and retrieve vehicles. The palletless system transports vehicles into the parking garage and positions them directly on a concrete or steel deck. Building construction can be based on concrete or steel or a combination of both, depending on project location and the client’s construction preference.

The Amenities

This system was customized for this specific development. Pictorial representations of the system and equipment pieces and simplified user screens were created to allow non-technical personnel to easily interact with the parking system. The concierges at 500 Walnut also have access via a terminal at their desk, allowing them to perform certain functions such as retrieving vehicles and permitting residents’ visitors to use the system.

500 Walnut’s facility offers:

■■ Cost- and time-efficient parking.

■■ Increased safety.

■■ Less human involvement and fewer human errors than traditional systems.

■■ Convenient 24/7 access.

Read the article here.

IAN TODD is director of automated parking systems at Westfalia Technologies. He can be reached at itodd@westfaliausa.com.

Planning, Design & Construction, Resources, Technology, Transportation & Mobility

Future of Proofing Parking Buildings

October 1, 2019 Rachel Yoka Leave a comment

By Fernando Sanchez

IN THE UNITED STATES, the entrenched relationship that vehicles have with everyday life has affected the development of cities—most notably parking buildings and other single-purpose forms of mobility structures. Imagining a world without extensive miles of packed highways, parking searches, and construction of single-purpose storage monoliths implies that a series of other changes has taken place, many of which have already started to affect new and near-future projects. Responses to prepare for that eventuality, and the impact it will have on the future of parking buildings and spaces, are currently being planned. Now, owners must sift through added layers of complexity.

The paths available to future-proof a parking building involve choosing how and when to incorporate various responses to a development. As adherence to newly enacted codes and regulations, global and regional climate change goals, and construction practices continue to emerge, the supply of parking for projects becomes a complicated decision that affects overall cost and design.

Making sense of what solutions should be included in a development remains a multi-faceted discussion as cost, timeframes, and available design choices all weigh on a project. Guides and certification programs exist to determine prescribed levels of green and sustainable features, amenities, and conditions. The U.S. Green Building Council’s LEED program and, specifically for parking facilities, Parksmart, are some of the most widely known guides and references used in the U.S. However, without clear means to evaluate features and concepts described in these guides, a myriad of project priorities, goals, and opportunities can be overlooked or not explored at all.

Target Value Delivery

Every worthy parking designer and/or builder will have a repertoire of explored, studied, and constructed solutions that can be implemented. Options range from easily implemented program requirements to wholesale plans that convert from parking to other non-storage use. But solutions are not one-size-fits-all, and what is appropriate for a hospital campus may not make sense for a high-density mixed-used development.
Equally differentiating are cost implications. Some responses can easily be incorporated with minimal cost, but there are those that can increase project costs many-fold—sometimes beyond 50 percent of typical expenses for self-parking projects. More appropriate to cost evaluations are the non-design components, such as financing, ownership portfolios, and other similar issues.

A system that aids in response selection and provides cost and schedule certainty helps organize a project to appropriately evaluate future-proofing options. The target value delivery method implements a series of tools and approaches to define the owner’s program requirements (OPR), which then is extrapolated to define the conditions of satisfaction (CoS) that guide a basis of design (BOD) document for the project. This system sets the framework for owners to achieve success with their projects.

Depending on the delivery method selected by the owner—traditional design-bid-build, design-build, or any of a series on the spectrum—the output helps guide owners to make appropriate selections for their project. Whether created with a designer or by a design-build team, the OPR establishes the initial overarching direction and goals the project needs to achieve. Is it desired to reach LEED platinum levels, or will Parksmart certification be required? What is the desired interaction between the street and the building? Does the project need to respond to future changes in five, 10, or 15 years? Whichever direction chosen, an owner’s first step is to define desired aspirations and goals specific to desired outcomes, not “what it looks like,” but rather “what it should accomplish.”

FUTURE-PROOFING ALTERNATIVES
Now, with an understanding of how to evaluate available alternatives,
consider the following list and categorization of possible alternatives on a parking development:

Alternatives to define at the OPR stage:

1. Transportation-oriented Development.

• Connectivity to mass transit hubs.
• Last-mile traveled support systems.

2.Street/curb management.

3.Changes in use; parking is vehicle-oriented.

•Change to human-oriented uses.
•Change to other non-human–oriented use.

4.Sustainability goals.

5.Reduction of energy use.

6.Energy generation/storage onsite.

7.Improved mobility responses.

Definition of alternatives at the COS stage:

1.Transportation.

•Degree to build connectivity to the street.

2.Street management.

•Self-driving vehicles.
•Improvement of use of curb.

3.Change in use.

•Battery farms.
•Network nodes.
•Autonomous vehicle infrastructure.
•Automatic vehicle storage and retrieval systems.

4.Sustainability goals.

•Materials used in construction.
•Quantity of electric-vehicle (EV) charging stations.

5.Reduce energy use.

•Lighting systems.
•Construction methods and embodied energy.

6.Generate energy onsite.

•Dynamos/generators.
•Steam.
•Wind.
•Hydroelectric.
•Photovoltaic arrays.

7.Mobility improvements.

•Ride-share.
•Scooters.

Application of alternatives at the BOD stage:

1.Transportation—parking and EV station locations—participation in mapping apps.

2.Type of connectivity.

•Bus stop proximity.
•Dedicated lanes for various transportation modes.
•Allocation of space at development.
•Management programs for transportation—incentives, discount programs, emergency transportation.

3.Implications of feature to add in converting use.

•Higher ceilings.
•Sloped floors.
•Egress requirements.
•Fire life safety requirements.
•Mechanical lifts—user operated.
•Semi-automatic—puzzle systems that are user operated with some logic board.
•Full-automatic—full computer operated at input bays; City of West Hollywood, Calif., for example.

4.Materials used in construction.

•Carbon curing—capturing CO2 from industrial emitters into concrete mix—converts to CaCO3 (calcium carbonate—capturing CO2).
•Type of charging stations, such as ChargePoint vs. Tesla chargers.
•Code minimums (8 percent EV spaces in California) or higher voluntary tiers.

5.Reduction of energy use.

•Light fixture performance.
•Lighting strategies—daylight harvesting.

6.Power generation onsite.

•Extent of power generation—in kWH or surface area available.

7.Mobility improvements.

•Service requirements—areas to host shared-ride services.

Further into the project’s development, the owner’s next step is to define the CoS—a detailed description of how a design response will be measured to achieve the OPR. Perfect examples are the LEED and Parksmart point system certification levels. The CoS should tailor the point categories of each rating system and describe a means to determine any priorities in design responses. The categories created in the Parksmart guide serve well in evaluating a parking projects attainment of the OPR by categorizing the myriad design responses to future proofing: management, programs, technology and structure design, and innovation. Similarly, the CoS could indicate the expected LEED level to be achieved—silver, gold, platinum. For projects in California, describing which higher voluntary tier requirements listed in CalGreen are important to satisfying the OPR.

The third and final step in determining how to futureproof a parking development is diving into the myriad responses with the design team and, whenever possible, the construction team, to develop the project’s BOD. The inclusion of the construction team is to analyze constructability and schedule effects. Typically, this evaluation takes place during early design phases. The BOD should identify the specific nature of each response or component and how it will achieve the levels set in the CoS. A properly developed BOD should align with the development of the project’s performance specifications. Specific considerations to include are the components and modifications important to each system in case replacements are required in the future. A naturally ventilated parking building will not include a mechanical ventilation system, but if the project is determined to need exhaust and supply fans in the future, the size and volume consideration should be clearly identified.

Choosing by Advantages
The crux in creating a BOD lies with determining which systems to include and to what degree they need to be defined to meet the CoS. It is quite easy to say that cost exceeds all other considerations, but in transforming into a more sustainable world, opportunity costs can be offset by other features that achieve OPR. With that in mind, the LEAN Institute and others have written extensively on ways that Choosing by Advantages (CBA)—a decision-making method to determine best decisions by weighting advantages of particular options for consideration and selection—can be implemented and the steps involved to achieve selection.

Applied to future-proofing a parking development (or any development for that matter), CBA provides a system to study various options based on valuing the importance of advantages between a particular set of options described in the CoS and determine the best choice. Familiar to many in the AEC (architecture, engineering, and construction) world is the use of the Tabular Method to record this evaluation, and many great summary explanations have been published detailing the step-by-step procedures.

Criteria to be evaluated will be particular to each system. For example, if the program requirements identify future conversion for revenue gain, the CoS could identify a future conversion from a self-park system to a mechanical parking system. To determine which mechanical parking system to define in the BOD, CBA could compare the self-parking design to a parking-lift system, puzzle-lift system, and a full-automatic system. Factors to evaluate would identify the extent of changes required for conversion, structural system initial requirements, fire life safety system initial requirements, fire life safety future requirements, revenue potential, aesthetics, serviceability, and area-per-parking space, among other things. The attributes of each alternative would then be summarized, and the advantage of each would be determined from the least preferred attribute of each factor and ultimately charting the advantages of each alternative against the cost of each system to determine the best solution to incorporate. The last step uses cost to determine a comparison chart for selection.

CBA allows for a transparent and open evaluation of various systems to consider when deciding to future-proof a parking building.

To borrow from Nils Bohr, Nobel laureate, “Prediction is very difficult, especially if it’s about the future.” It may be a daunting task to future-proof a development based on the many alternatives and systems currently or possibly available in the offing. However, using the described system to evaluate, compare, and select from the various alternatives will help a project team select the most appropriate alternatives for a given parking building project.

Read the article here.

FERNANDO J. SANCHEZ is an integrated design director with McCarthy Building Companies, Inc. He can be reached at fsanchez@mccarthy.com.