Date:   December 15, 2011 Time:  1:00 PM – 2:30 PM ET Cost:  All T3 webinars are free of charge PDH:  1.5   View PDH Policy T3 Webinars are brought to you by the ITS Professional Capacity Building Program (ITS PCB) at the U.S. Department of Transportation’s (US DOT) ITS Joint Program Office, Research and Innovative Technology Administration (RITA). Reference in this webinar to any specific commercial products, processes, or services, or the use of any trade, firm or corporation name is for the information and convenience of the public, and does not constitute endorsement, recommendation, or favoring by U.S. Department of Transportation. Description This webinar will provide an overview of Adaptive Signal Control Technology (ASCT) and the efforts of the FHWA Every Day Counts initiative to mainstream the implementation of this technology. Agency professionals will discuss their recent experiences with adaptive signal control projects and how systems engineering was used as a tool to inform decisions that affect technology selection, system operation, and procurement options. The webinar will also discuss how to apply the FHWA Model Systems Engineering Documents for ASCT to these types of projects. Background The goal of the Every Day Counts ASCT initiative is to mainstream the use of adaptive control where traffic conditions and agency capability support its implementation. The Model Systems Engineering Documents for ASCT provide the agency practitioner already knowledgeable about traffic signal operation the means to develop systems engineering documents that comply with system engineering requirements (23CFR940.11) with a significantly reduced level of effort compared with traditional processes. In so doing, the risks of implementing systems inconsistent with an agency’s objectives and capabilities are greatly reduced. These model documents and the associated guidance were developed by a team of traffic signal operations and systems engineering experts, with significant input from agency stakeholders, who have experience implementing ASCT in a variety of situations. Taken as a whole, this collection is the first of its kind, blending questions and potential responses to guide the reader through the selection of statements for a concept of operations and then linking requirements to those statements. To engage in a national discussion about adaptive control or any aspect of traffic signal management, operation, or maintenance, join the National Transportation Operations Coalition (NTOC) Traffic Signal Library and User Forum by visiting https://ntoctsl.groupsite.com/. Target Audience Agencies involved in the management and operation of traffic signal systems. Learning Objectives Describe the FHWA Every Day Counts, Adaptive Signal Control Technology initiative, including its goals and resources. Discuss the types of facilities and traffic conditions where adaptive signal control has potential to demonstrate benefits. Highlight agency experiences with the use of the Model Systems Engineering Documents for ASCT to implement projects. Describe the use of the Model Systems Engineering Documents for ASCT to inform the ASCT implementation process. Additional ASCT Resources Frequently Asked Questions about the Model Systems Engineering Documents Costs and benefits document, evaluation documents, and points of contact Agenda Leo Almanzar & Hong Yuan, New Jersey Meadowlands Commission — Meadowlands Adaptive Signal System for Traffic Reduction (15 min) Cindy Shell & James Fritz Brogdon, Volkert & Associates, Inc. — Chattanooga Regional ITS/Adaptive Signal Control Technology State Route 153 (15 min) Richard Denney, FHWA Resource Center — FHWA Model Systems Engineering Documents for ASCT Systems (40 min) Questions (20 min) Host Paul Olson, P.E., PTOE, ITS Technology Specialist, FHWA Resource Center With 30 years of experience, Mr. Olson is a widely known and respected expert on traffic signals and signal systems design and operation. In his current role with FHWA, he provides specialized technical support both to the FHWA headquarters and federal-aid field offices and partner state and local agencies, in addition to the ITS Joint Programs Office in the Research and Innovative Technology Administration. Paul began his career with the Washington State Department of Transportation designing and operating traffic signals in the Northwest Region that includes the King and Snohomish County Metroplex. Prior to joining FWHA, he served as a consultant in the San Francisco Bay Area. During that engagement, Paul managed traffic signal timing optimization projects for the California jurisdictions of Concord, Pleasant Hill, Walnut Creek, Contra Costa County, and Caltrans. Paul has had significant roles in the development of the Traffic Signal Timing Manual and the development of many National Highway Institute courses. He also had a significant role in the development of the Mobile Hands on Traffic Signal Timing Training. Paul is a Fellow of the Institute of Transportation Engineers and has been active for many years on the Transportation Research Board’s standing committees on Traffic Signal Systems. He holds a B.S. in civil engineering from Washington State University and a Certificate in Telecommunications Engineering from the University of California at Berkeley; a Professional Transportation Operations Engineer certification from the Institute of Transportation Engineers; and he holds registrations as a civil engineer in Washington, Oregon, California, Nevada, Arizona and registrations as a traffic engineer in California and Oregon. Presenters Leo Almanzar P.E., P.P., Senior Engineer, New Jersey Meadowlands Commission Mr. Almanzar plays a critical role in transportation planning and traffic engineering initiatives for the Commission. He manages transportation reviews and calculation of transportation mitigation assessments for the Meadowlands Transportation Planning District. He is also design and construction project manager for multiple phases the Meadowlands Adaptive Signal System for Traffic Reduction (MASSTR) at 128 locations. Leo’s career’s worth of experience in traffic engineering coupled with more than 3 years of adaptive signal control technology (ASCT) research and collaboration with adaptive system managers, communication, and detection providers have resulted in a comprehensive background in ATCS and related technologies. He recently designed the entire first phase of the project consisting of thirty traffic signals and prepared the Systems Engineering Analysis and Review Form for the project. Leo is a graduate of the New Jersey Institute of Technology, where he earned bachelor and master degrees in civil engineering. He is also an adjunct professor of computer aided design at Passaic County Community College. Hong Yuan, P.E., P.T.O.E , Senior Transportation Engineer, New Jersey Meadowlands Commission Mrs. Yuan plays a critical role in transportation planning and traffic engineering initiatives for the Commission. There she manages transportation reviews and calculation of transportation mitigation assessments for the Meadowlands Transportation Planning District. She is also a project manager of design and construction for multiple phases of the Meadowlands Adaptive Signal System for Traffic Reduction (MASSTR). Hong developed the technical specifications and played a critical role in preparing the procurement packages and the Systems Engineering Analysis for MASSTR. Her experience in transportation planning and traffic engineering coupled with more than 3 years of adaptive signal control technology (ASCT) research and collaboration with adaptive, communication, and detection providers have resulted in a comprehensive background in ATCS and related technologies. Hong earned her bachelor degrees in civil engineering as well as economics from Tsinghua University, China; and her master degree in civil engineering from Georgia Institute of Technology. She is a registered PE in New Jersey and Maryland, and a PTOE since 2008. Cindy Shell, Designer, Volkert & Associates, Inc. Mrs. Shell is currently a designer with Volkert & Associates, has been responsible for the design of numerous intersection and signal upgrade plans, signal timing plans, and traffic studies for both public and private sectors throughout the southeast. Her most recent experience includes the ITS project that will provide signal upgrades and transportation network improvements at 123 intersections located within the City of Chattanooga metropolitan area and will include the use of adaptive signal control technology (ASCT). Prior to coming to Volkert, Mrs. Shell worked 12 years for the Alabama Department of Transportation in the areas of Construction, Maintenance, and Administration. She holds a bachelors degree in biology from Auburn University and a masters degree in Counseling and Human Development from Troy State University. James Fritz Brogdon, P.E., Project Manager, Volkert & Associates, Inc. Mr. Brogdon is currently a Project Manager with Volkert & Associates, Inc. He has been with the firm since 1997. He is responsible for developing ITS, roadway, lighting and traffic signal plan sets including design criteria, horizontal and vertical geometry, signing/striping, equipment specification, and detailed construction quantity estimates. Mr. Brogdon has extensive experience working in conjunction with multiple state departments of transportation on numerous ITS, roadway, lighting and traffic signal, and roadway projects. Mr. Brogdon earned his bachelor and master degree in Civil engineering from Tennessee Technological University. He is a registered PE in Tennessee, Arkansas and Illinois. Richard W. Denney, Jr. P.E., Traffic Management Specialist, FHWA Resource Center With 30 years of experience, Mr. Denney is a widely known and respected expert on traffic signals, ITS architecture and design, standards, and systems engineering for transportation management projects. Prior to joining the FHWA, Rick served as a consultant and led projects implementing systems engineering in the development of standards and also in the planning and development of a wide range of ITS projects. Rick also managed all types of ITS projects throughout the country, including signal systems, ITS systems engineering, communications plans, regional architectures, and dynamic message sign systems design and testing. He chairs the National Transportation Communications for ITS Protocol (NTCIP) Field Management Stations Working Group. Rick began his career at the Texas Department of Transportation in the Freeway Operations Unit. He then served as the Traffic Signal Engineer for the City of Austin, and subsequently as the Traffic Management Engineer for the City of San Antonio, where he managed the planning, design, and operation of traffic signals and several large and small traffic signal system projects for a combined network of 1,100 traffic signals. Rick holds a B.S. in civil engineering from Texas A&M University, and a M.S. in engineering from the University of Texas at Austin. He is widely published, and recently received the Transportation Research Board’s D. Grant Mickle Award for Outstanding Paper on Operations.

 

Date: April 15, 2010

Time: 1:00–2:30 PM ET

Cost: All T3s are free of charge

PDH: 1.5. — Webinar participants are responsible for determining eligibility of these PDHs within their profession.

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T3 Webinars are brought to you by the ITS Professional Capacity Building Program (ITS PCB) at the U.S. Department of Transportation‘s (USDOT) ITS Joint Program Office, Research and Innovative Technology Administration (RITA). Reference in this webinar to any specific commercial products, processes, or services, or the use of any trade, firm or corporation name is for the information and convenience of the public, and does not constitute endorsement, recommendation, or favoring by U.S. Department of Transportation.

Webinar Description

The Intelligent Transportation Systems Joint Program Office (ITS JPO) of the U.S. Department of Transportation (USDOT) has developed online ITS Knowledge Resources for decision making support. The major objectives on these online tools are to:

• Capture ITS costs, benefits and lessons learned from experiences of stakeholders in their planning, deployment, operations, maintenance, and evaluation of ITS.
• Provide all ITS stakeholders with convenient access to costs, benefits and lessons learned knowledge so that they can make informed decisions in their future ITS actions.

The ITS Knowledge resources include the ITS Benefits Database (www.itsbenefits.its.dot.gov), the ITS Costs Database (www.itscosts.its.dot.gov), and the ITS Lessons Learned Database (www.itslessons.its.dot.gov). The U.S. DOT’s ITS Professional Capacity Building (PCB) Program is sponsoring a T3 (Talking Technology and Transportation) webinar to show ITS professionals how to use these databases to help stakeholders make better informed decisions.

This webinar will show participants how to use the databases and knowledge resources available through a “live” demonstration that features the websites. Following the demonstration of each of the ITS Benefits, Costs and Lessons Learned databases, participants will engage in interactive exercises where participants will use the knowledge resources to solve test case problems and respond to polling questions.

In addition, presenters will introduce new enhancements to the unit cost database that provide sample project costs. Participants will have an opportunity to provide comments about the new features.

Audience

Anyone involved in planning, implementation, and operation of ITS systems, including Federal, State, and local transportation professionals.

Learning Outcomes

• Ability to use the ITS Knowledge Resources to find information on ITS costs, benefits and lessons learned.
• Understanding how the ITS Knowledge Resources can help stakeholders make informed decisions in planning, deployment, operations, maintenance, and evaluation of ITS.
• Provide comments on the new unit costs enhancements.

Host:

Marcia Pincus, Program Manager, Environment (AERIS) and ITS Evaluation, ITS Joint Program Office

Marcia Pincus is currently the Program Manager, Environment (AERIS) and ITS Evaluation, for the ITS Joint Program Office at USDOT. Marcia joined the ITS JPO six years ago, and has over 15 years experience as an ITS policy analyst and program manager in the public, private, and academic sectors.

Presenters:

Firoz Kabir, Principal, Noblis

Firoz Kabir is a Principal with Noblis in Washington, DC. He has over 24 years of experience in Intelligent Transportation Systems (ITS) and transportation engineering. He has been a consultant to public- and private-sector organizations for a wide range of projects that have encompassed regional transportation planning, highway design, ITS architecture, transportation knowledge resource development, and advanced technology implementation planning for traffic and transit systems. He has conducted research for U.S. DOT, the New Jersey DOT, and the Florida DOT in the areas of traffic operations and transportation safety. Firoz holds a BS in Civil Engineering from the Indian Institute of Technology (Mumbai), an MS in Civil Engineering from the New Jersey Institute of Technology and an MBA from the Johns Hopkins University.

Cheryl Lowrance, Principal Intelligent Transportation Systems (ITS) Engineer, Noblis

Cheryl Lowrance is a Principal Intelligent Transportation Systems (ITS) Engineer with Noblis supporting the Research and Innovative Technology Administration (RITA), ITS Joint Program Office. She has 25 years of experience in traffic engineering and traffic management including project management, design and implementation of traffic signals, traffic signal systems, and freeway surveillance systems. Cheryl currently provides leadership for the ITS Program Assessment Knowledge Resources, Benefits and Costs databases. Activities include researching and writing content; leading the development of improvements to the websites; making presentations to industry leaders on the resources available for planning, design, and implementation; and responding to quick task assignments from the client pertaining to benefit and cost inquiries. She has a BS in Civil Engineering from Tennessee Technological University.

Webinar Overview

Session Description

Many transit agencies have implemented automatic vehicle location (AVL) / computer-aided dispatch (CAD) systems to manage real-time bus operations. These systems generate large quantities of data, and dispatchers typically do not have sufficient time to digest the data for decision making in a normal operating environment or are unable to recognize patterns of operational problems. A solution to this problem is decision support tools for dispatchers or “Transit Operations Decision Support Systems (TODSS).” TODSS are expert systems designed to support dispatchers in real-time bus operations management in response to incidents, special events, and other changing conditions in order to restore service when disruptions occur.

To support the development of TODSS, the USDOT worked with the transit industry to develop core requirements and then, via a cooperative agreement, worked with Pace Suburban Bus Service and Continental Corporation to develop and demonstrate a TODSS prototype based on the core requirements. The TODDS prototype became operational in April 2009.

This T3 Webinar will discuss the results of the USDOT sponsored TODSS project and provide a demonstration of the pilot TODSS. Specifically, Yehuda Gross of the RITA ITS Joint Program Office and Steve Mortensen of FTA will discuss the background of the TODSS development effort, followed by David Jackson of Booz Allen Hamilton who will give an overview of TODSS and discuss the types of incidents that the system addresses. John Braband and Tariq Khan from Pace Suburban Bus Service will then provide a live demonstration of TODSS, followed by Bill Hiller of Logged On Transit and Dan Spinks of Continental Corporation who will discuss TODSS benefits and highlight some of the key lessons learned to date. Yehuda Gross will wrap up the webinar by identifying USDOT potential next steps for TODSS.

Audience

Transit agency bus operations managers and practitioners, and transit ITS vendors and consultants interested in learning about the functionality, capabilities, and value of transit bus fleet management expert systems such as TODSS.

Learning Objectives

• Greater awareness of the transit industry developed core TODSS requirements
• Greater awareness of TODSS functionality, applications, capabilities, and value
• Results of the USDOT sponsored TODSS Demonstration project including the key lessons learned
• Potential next steps for TODSS

Federal Hosts:

Yehuda Gross, ITS Joint Program Office

Yehuda brings with him close to 40 years of experience in engineering technologies with 27 of them applied in the transportation field. He joined the US Department of Transportation approximately nine years ago and is responsible for all elements of transit ITS in the Joint Program Office. Currently he is leading a federal effort that introduced a coordinated transportation service approach in nine federal government departments with the intent to eliminate redundancies and enhance service.

Yehuda received his education and engineering degrees from the City College of New York, NYU and Brooklyn Polytechnic Institute.

Steve Mortensen, Federal Transit Administration Office of Research, Demonstration & Innovation

Steve Mortensen is a Senior ITS Engineer with the Federal Transit Administration Office of Research, Demonstration and Innovation. Mr. Mortensen represents FTA in the USDOT management of the multimodal Integrated Corridor Management (ICM) initiative and Urban Partnership Agreement (UPA) evaluations. Steve also manages several transit ITS research projects, including the Caltrans and SANDAG Vehicle Assist and Automation (VAA) demonstrations and evaluations, Transit Operations Decision Support Systems (TODSS) demonstration, and Chattanooga SmartBus evaluation.

Prior to FTA, Steve worked at Noblis providing ITS program technical and management support to the ITS Joint Program Office and FTA in the areas of traveler information, rural transit, human services transportation coordination, electronic payment, and rail transit. Prior to Noblis, Steve worked at PB Farradyne developing ITS deployment and implementation plans for several metropolitan regions.

Mr. Mortensen has a Bachelor of Science degree in Mechanical Engineering and a Master of Community and Regional Planning degree from Iowa State University. Steve is a member of the American Institute of Certified Planners (AICP).

Speakers:

John Braband, Pace Suburban Bus

John is the Project Manager for the Transit Operations Decision Support System (TODSS). He was formerly the Project Manager for the implementation of the Pace Intelligent Bus System (IBS) which rolled out in 2005. As manager of Bus Operations, John oversees a fixed route system consisting of over 700 buses. John has over 34 years of transit experience.

William Hiller, LoggedOn Transit

Mr. Hiller provides technical support and planning for public transit Intelligent Transportation Systems (ITS) through his consulting company LoggedOn Transit. Mr. Hiller most recently spent four years as an associate at Booz Allen providing consulting services in the areas of ITS Data Analysis, ITS Transit Design, ITS Transit Implementation and Field Operational Testing. Mr. Hiller brings a strong background in bus operations and IT from over 33 years of transit experience. Mr. Hiller started his career as a bus operator at the Ann Arbor Transportation Authority (AATA) and became the IT Manger responsible for agency-wide project management for all technical and ITS projects. After leaving AATA, Mr. Hiller spent five years at Siemens in several capacities including creating and managing the Transit CAD/AVL Owner Services group, product line management, and technical sales support. Mr. Hiller has a Bachelor of Science degree in Computer Science from Eastern Michigan University.

David Jackson, Booz Allen

Mr. David Jackson has been leading Information Technology (IT) and Intelligent Transportation Systems (ITS) engagements over the last seven years with Booz Allen. Mr. Jackson specializes in operations technologies including CAD/AVL Systems, IT and ITS system infrastructure design, and development of ITS system architecture to support operations and planning activities.

Tariq J. Khan — Pace Suburban Bus

Tariq is responsible for maintaining and troubleshooting IBS program software, hardware and communications (LAN & WAN). He has 25 years of experience in software engineering, including 20 years in transportation.

Dan Spinks, Continental Corporation

Dan has been directing software product development efforts for Continental Corporation over the last 4 years and also directed the project house for over 40 mass transit CAD/AVL integration projects for 3 years. He and his team of software engineers led the innovative development approach to TODSS by working very closely with PACE and the FTA. He has over 20 years of software development experience with a third dedicated to integrating transit solutions.

Additional Resources

Please view the core TODSS requirements document on the Electronic Document Library website

Webinar Overview

Webinar Description

The Architecture provides a common framework for planning, defining, and integrating intelligent transportation systems. It is a mature product that reflects the contributions of a broad cross-section of the ITS community (transportation practitioners, systems engineers, system developers, technology specialists, consultants, etc.). The National Architecture is required on ITS projects receiving funding in whole or in part from the Highway Trust Fund, including the Mass Transit Account.

This T3 will focus on new features found in Version 6.1 of the National ITS Architecture and the new Version 4.1 of the Turbo Architecture Software. This T3 Webinar is not an overview of the National ITS Architecture but will address some history and background. All transportation professionals are welcomed to attend but participants familiar with the National ITS Architecture will benefit most from the content being presented.

Resources for the use of the ITS Architecture will be discussed. Visit the FHWA Office of Operations for ITS Architecture Implementation Program for a list of resources for new and experienced users of the National ITS Architecture.

Audience

Anyone involved in planning, implementation, and operation of ITS systems, including Federal, State, and local transportation professionals, Metropolitan Planning Office staff, systems engineers, system developers, technology specialists, and consultants.

Learning Outcomes

• Ability to identify areas of the National ITS Architecture affected by changes to the framework.
• Understanding of new features available in Version 6.1 of the National ITS Architecture and their affect on the overall Architecture.
• Understanding of the deployment support and resources available to state and local agencies to aid in ITS implementation and support Rule 940 requirements.
• Understanding of new features in Version 4.1 of Turbo Architecture Software.

Host:

Emiliano Lopez, ITS Deployment Program Manager, FHWA Headquarters

Emiliano is currently the ITS Deployment Program Manager for ITS Regional Architectures and Systems Engineering in Washington DC. Prior to his assignment in Headquarters, Emiliano worked in the FHWA Resource Center providing technical expertise and assistance on ITS project development, review, deployment and operations/maintenance. He also provided expertise and assistance on ITS Standards. Before joining FHWA Emiliano worked at both the state and local levels with agencies such as the Virginia Dept. of Transportation, and the Cities of San Diego and Anaheim. Combined public agency work Emiliano brings over 20 years of experience to the agency. He has a Masters in Public Administration from Central Michigan University, and a B.S. in Civil Engineering and minor in Electrical Engineering from San Diego State University.

Emiliano provides training, outreach and technical support for the National ITS Architecture and Systems Engineering programs. He co-chairs FHWA’s Architecture Field Support Team, and FHWA’s Operations Council architecture and systems engineering working group.

Emiliano is a certified instructor for NHI. He teaches courses in ITS Software Acquisition, Systems Engineering and National ITS Architecture.

Presenters:

National ITS Architecture Team:

Cliff Heise, Iteris

Cliff has over 25 years of experience in the areas of project management and systems and software engineering throughout all phases of program development. He has been the Program Manager of the National ITS Architecture Program for Iteris since 1996 and has been involved in all aspects of the program’s outreach, maintenance, and management. Cliff has also managed the development and implementation of ITS Architectures at the state and local levels, most recently in Virginia, and has experience with the challenges and policy issues surrounding the application of the National ITS Architecture. Cliff is the Vice President of Federal and Research Programs for Iteris in Sterling, VA. He has a Bachelor’s Degree in Mathematics from Oklahoma State University.

David Binkley, Lockheed Martin

David Binkley is a Senior Systems Engineer at Lockheed Martin. He has 19 years experience in all aspects of Systems Engineering for government and commercial projects. He joined the National ITS Architecture Team in 1995 and has served as the program’s Principal Investigator / Chief Engineer for the past 6 years. Today he directs the maintenance updates to the National ITS Architecture. He is currently involved with testing the next release of Turbo Architecture and participating in numerous Deployment Support activities. David has a Bachelor’s in Electrical Engineering from Georgia Tech.

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