Expect non-custom hardware and software to have technology limitations that may affect operational capabilities.
The Chicago, Illinois and Montgomery County, Maryland experience in procuring and developing advanced parking information system hardware and software.

Prepare in advance for severe weather by staffing enough snow plow operators and ensuring that public information systems will be updated with current weather and road conditions.
Experience from the 2007 winter storm emergency response in the Commonwealth of Pennsylvania.

Identify key design issues in the deployment of advanced parking management systems (APMS).
Experience from APMS deployment sites.

Involve all appropriate stakeholders in a formal and collaborative manner during each phase of the advanced parking management systems (APMS) project.
Experience from APMS deployment sites.

Consider the impact of different technical and design factors when making cost estimates for advanced parking management systems (APMS).
Experience from APMS deployment sites.

Ensure proper operations and maintenance of advanced parking management systems (APMS)
Experience from APMS deployment sites.

Draw on the strengths of complementary relationships between the public and private sectors for successful implementation of ITS projects.
The E-470 Public Highway Authority’s experience in forging public-private partnerships for design, construction, operations, and maintenance of an electronic toll highway facility.

Build a strong partnership between transportation and public safety agencies, and establish clear operational rules from the start.
An experience operating a CAD-TMC (Computer-Aided Dispatch - Traffic Management Center) in Washington State.

Adopt best practices for integrating emergency information into Transportation Management Center (TMC) operations to improve performance and increase public mobility, safety and security.
Experience from 38 TMCs across the country.

Invest in research and development for emergency integration.
Experience from 38 TMCs across the country.

Extend the application of emergency integration best practices to further improve emergency operations.
Experience from 38 TMCs across the country.

Integrate weather information into Transportation Management Center (TMC) operations to enhance the ability of operators to manage traffic in a more responsive and effective way during weather events.
Experience from 38 TMCs across the country.

Consult with traffic engineers early in the process of no-notice evacuations to secure the use of traffic management resources and to identify routes for evacuation and re-entry.
Experience from an emergency incident in which 3,000 residents were evacuated under no-notice conditions due to a toxic chemical spill.

Develop a user-oriented system for displaying travel time messages on dynamic messages signs.
Four American Cities' experiences with Travel Time Messaging on Dynamic Message Signs.

Treat maintenance staff as customers and beneficiaries of ATIS information.
Washington's experience in deploying five Advanced Traveler Information System (ATIS) projects and developing a standardized approach for evaluating ATIS projects.

Treat system operators as the client and consider their perspectives during ATIS project development.
Washington's experience in deploying five Advanced Traveler Information System (ATIS) projects and developing a standardized approach for evaluating ATIS projects.

Consider how implementing an ATIS system will impact staffing and training requirements.
Washington's experience in deploying five Advanced Traveler Information System (ATIS) projects and developing a standardized approach for evaluating ATIS projects.

Consider that ATIS deployment in rural and/or remote areas presents special challenges.
Washington's experience in deploying five Advanced Traveler Information System (ATIS) projects and developing a standardized approach for evaluating ATIS projects.

Provide drivers with sufficient managed lane information that can be easily disseminated and understood.
A guidance provided by the Texas Transportation Institute on providing user information in managed lanes facilities.

Consider changeable message sign (CMS) positioning, data archive requirements, and traffic demand when considering deployment of a dynamic late merge system.
Experience of the Minnesota Department of Transportation in deploying a dynamic late merge system.

Follow accepted guidelines to create concise, effective messages to communicate to the public using Dynamic Message Signs (DMS).
Guidance from a Dynamic Message Sign handbook and from the use of DMSs in metropolitan areas.

Use recommended practices to provide accurate travel time messages to the public using Dynamic Message Signs (DMS).
Experiences and guidance from the use of DMSs in metropolitan areas.

Limit CMS message length to allow for adequate reading time at high speeds.
Best practices for use of CMS shared from several states.

Strike a balance between CMS content and the driver's ability to read at 65 mph when posting AMBER alerts.
The experience of several states regarding AMBER alerts.

Use ITS to implement a reliable communications system in work zones.
New Mexico’s experience in planning, deploying and operating a work zone traffic and incident management system.

Ensure initial and ongoing success of ITS deployments by providing sufficient start-up time, maintaining flexibility, and performing maintenance needs in-house.
New Mexico’s experience with planning, deployment and operating a work zone traffic and incident management system.

Effectively communicate plans for implementing contraflow lanes during a hurricane evacuation.
Experience from nine transportation management projects on hurricane evacuation preparedness.

Adopt adequate and thorough procurement processes which cover purchases of both standardized commodity type equipment and highly complex integrated ITS components.
Silicon Valley Smart Corridor’s experience with procuring equipment for the development of an integrated freeway, arterial and incident management system.

Consider potential system enhancements to meet heavy demand.
Utah DOT’s experience managing the development and deployment of arterial and freeway management systems

Define your agency's expectations of a new system and a robust set of system requirements and then choose the software that meets your requirements.
Utah DOT's experience using configuration management.

Get stakeholders involved in the process to increase the chances for successfully implementing a Wireless Enhanced 9-1-1 system.
Experience from the New York State Wireless Enhanced 9-1-1 Project

Deploy ITS systems strategically to achieve benefits.
San Antonio’s experience with integration of freeway and arterial management systems.

Integrate freeway and alternate route operations to achieve greater benefits.
San Antonio’s experience with integration of freeway and arterial management systems.

Use ITS Standards to achieve interchangeability and interoperability for Dynamic Message Signs.
Experience of nine agencies using Dynamic Message Signs built to NTCIP specifications.

Consider reconfiguring and integrating existing roadway management IT systems whenever possible to save costs associated with implementing new systems.
Phoenix’s experiences with integrating roadway management IT systems.

Utilize well-equipped safety service patrols to assist highway motorists after vehicle malfunctions or crashes, and to coordinate a safe and efficient response.
Testimonials of the benefits of safety service patrols from staff of several state DOTs, travelers, and others.

Select appropriate technologies to enable emergency notification and response systems to complement traditional 9-1-1 service.
Colorado and Washington’s experience with emergency notification and response systems.

Provide consistent and high-quality information to influence traveler behavior.
National experience with evaluating user response to freeway management systems.