Type: Environmental
Groups:- AERIS/ Sustainable Travel
Eco-Traffic Signal Timing
The Eco-Traffic Signal Timing application is similar to current adaptive traffic signal control systems; however, the application's objective is explicitly to optimize traffic signals for the environment rather than the current adaptive systems' objective, which is to enhance the intersection level of service or throughput, which might improve the intersection's environmental performance. The Eco-Traffic Signal Timing application processes real-time and historical connected vehicle data at signalized intersections to reduce fuel consumption and overall emissions at the intersection, along a corridor, or for a region. The application evaluates traffic and environmental parameters at each intersection in real time and adapts so that the traffic network is optimized using available green time to serve the actual traffic demands while minimizing the environmental impact.
Enterprise
This is one way this application may be realized, but not the only way. There are other ways to build a given application and accomplish a stated objective.
The enterprise diagram can be viewed in SVG or PNG format and the current format is SVG. SVG Diagrams: Installation Operations Maintenance Certification
PNG Diagrams: Installation Operations Maintenance Certification
Business Interaction Matrix:
| Eco-Traffic Signal Timing Operations Stage | |||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Vehicle Owner | Driver | Vehicle OBE Owner | Roadway Owner | RSE Owner | RSE Operator | ITS Roadway Equipment Owner | ITS Roadway Operator | Traffic Manager | Emissions Manager | Traffic Operations Personnel | Vehicle Basic Safety Provider | RSE Environmental Monitoring Provider | Vehicle Environmental Monitoring Provider | Other Traffic Manager | RSE Traffic Monitoring Provider | Vehicle Emissions Monitoring Provider | RSE Intersection Management Provider | Pedestrians | |
| Vehicle Owner | Vehicle Usage Agreement | Vehicle OBE Usage Agreement | Application Usage Agreement | Application Usage Agreement | Application Usage Agreement | ||||||||||||||
| Driver | Vehicle Usage Agreement | Expectation of Information Provision | Expectation of Information Provision | ||||||||||||||||
| Vehicle OBE Owner | Vehicle OBE Usage Agreement | Expectation of Information Provision | Expectation of Data Provision | ||||||||||||||||
| Roadway Owner | Service Delivery Agreement | ||||||||||||||||||
| RSE Owner | Expectation of Data Provision | Service Delivery Agreement | Operations Agreement | Information Exchange and Action Agreement | Information Exchange Agreement | Information Exchange Agreement | Application Usage Agreement | Application Usage Agreement | Application Usage Agreement | ||||||||||
| RSE Operator | Operations Agreement | ||||||||||||||||||
| ITS Roadway Equipment Owner | Information Exchange and Action Agreement | Operations Agreement | Information Exchange and Action Agreement | ||||||||||||||||
| ITS Roadway Operator | Expectation of Information Provision | Operations Agreement | Information Provision Agreement | Expectation of Safety Provision | |||||||||||||||
| Traffic Manager | Information Exchange Agreement | Information Exchange and Action Agreement | Information Provision Agreement | Employment Agreement | Information Exchange Agreement | ||||||||||||||
| Emissions Manager | Information Exchange Agreement | Information Provision Agreement | Information Provision Agreement | ||||||||||||||||
| Traffic Operations Personnel | Employment Agreement | ||||||||||||||||||
| Vehicle Basic Safety Provider | Application Usage Agreement | ||||||||||||||||||
| RSE Environmental Monitoring Provider | Application Usage Agreement | ||||||||||||||||||
| Vehicle Environmental Monitoring Provider | Application Usage Agreement | ||||||||||||||||||
| Other Traffic Manager | Information Exchange Agreement | ||||||||||||||||||
| RSE Traffic Monitoring Provider | Application Usage Agreement | ||||||||||||||||||
| Vehicle Emissions Monitoring Provider | Application Usage Agreement | ||||||||||||||||||
| RSE Intersection Management Provider | Application Usage Agreement | ||||||||||||||||||
| Pedestrians | Expectation of Safety Provision | ||||||||||||||||||
Includes Enterprise Objects:
| Enterprise Object | Description |
|---|---|
| Application Certification Entity | The body that determines whether an application may be deployed and operated in the Connected Vehicle Environment. This entity's composition, the requirements it applies and the procedures it uses to verify those requirements may vary with application type. For example, applications with human safety component (crash avoidance, movement assistance etc.) may have stringent requirements and extensive testing in a variety of conditions, while applications that provide strictly mobility functionality may have far less testing requirements; possibly as little as just making sure the application doesn't interfere with any other applications. |
| Device Certification Entity | The body that determines whether a device may be deployed and operated in the Connected Vehicle Environment. This entity's composition, the requirements it applies and the procedures it uses to verify those requirements may vary with device type. |
| Driver | The 'Driver' represents the person that operates a vehicle on the roadway. Included are operators of private, transit, commercial, and emergency vehicles where the interactions are not particular to the type of vehicle (e.g., interactions supporting vehicle safety applications). The Driver originates driver requests and receives driver information that reflects the interactions which might be useful to all drivers, regardless of vehicle classification. Information and interactions which are unique to drivers of a specific vehicle type (e.g., fleet interactions with transit, commercial, or emergency vehicle drivers) are covered by separate objects. |
| Emissions Connected Vehicle Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Emissions Connected Vehicle Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Emissions Connected Vehicle Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Emissions Data Management Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Emissions Data Management Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Emissions Data Management Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Emissions Manager | The entity responsible for the monitoring of and reaction to emissions. |
| Federal Regulatory | Federal regulatory bodies that have legal authority to control and/or provide input to policies regulating transportation infrastructure and operations. This includes entities such as the Federal Communications Commission and US Department of Transportation. |
| ITS Certification Entity | The body that determines whether an ITS device or application may be deployed and operated in the transportation environment. This entity's composition, the requirements it applies and the procedures it uses to verify those requirements may vary with device and application type. Typically not a formal body, assigned on a project-by-project basis depending on the type of infrastructure involved. Since ITS projects are locally-focused (typically state or smaller), the entities that are part of this body are typically those with operational jurisdiction where the ITS is installed (e.g., state or local DOTs, state or local maintenance managers etc.) |
| ITS Roadway Equipment Owner | The entity that owns the Roadway ITS equipment. |
| ITS Roadway Operator | The entity that operates the Roadway ITS equipment. |
| Other Traffic Manager | Representing another Traffic Manager, "Other Traffic Manager" provides the source and destination for agreements and expectations between Traffic Managers, enabling traffic management activities to be coordinated across jurisdictional boundaries. |
| Pedestrians | 'Pedestrians' participate in connected vehicle applications that support safe, shared use of the transportation network by motorized and non-motorized transportation modes. Representing those using non-motorized travel modes, pedestrians provide input (e.g. a call signal requesting right of way at an intersection) and may be detected by connected vehicle applications to improve safety. Note that pedestrians represent all non-motorized users, including bicyclists. |
| Roadway Basic Surveillance Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Basic Surveillance Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Basic Surveillance Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Roadway Emissions Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Emissions Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Emissions Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Roadway Environmental Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Environmental Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Environmental Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Roadway Owner | The owner of the roadway proximate to which roadside equipment will be/is installed. |
| Roadway Signal Control Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Signal Control Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Roadway Signal Control Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| RSE Deployer | The entity responsible for the deployment, operations and maintenance of roadside equipment. |
| RSE Environmental Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Environmental Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Environmental Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| RSE Intersection Management Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Intersection Management Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Intersection Management Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| RSE Operator | The entity that operates roadside equipment in the transportation environment. |
| RSE Owner | The owner of roadside equipment. |
| RSE Provider | The "RSE Provider" is the entity that develops and (presumably) sells roadside equipment to other entities for deployment and research. |
| RSE Traffic Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Traffic Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| RSE Traffic Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| State Regulatory | State regulatory bodies that have legal authority to control and/or provide input to policies regulating vehicles, transportation infrastructure and operations. This includes entities like Departments of Motor Vehicles, property tax authorities and tolling agencies. |
| TMC Environmental Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Environmental Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Environmental Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| TMC Regional Traffic Management Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Regional Traffic Management Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Regional Traffic Management Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| TMC Signal Control Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Signal Control Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| TMC Signal Control Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Traffic Manager | The entity responsible for the management of traffic, both freeway and arterial. |
| Traffic Operations Personnel | 'Traffic Operations Personnel' represents the people that operate a traffic management center. These personnel interact with traffic control systems, traffic surveillance systems, incident management systems, work zone management systems, and travel demand management systems. They provide operator data and command inputs to direct system operations to varying degrees depending on the type of system and the deployment scenario. |
| Vehicle Basic Safety Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Basic Safety Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Basic Safety Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Vehicle Emissions Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Emissions Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Emissions Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Vehicle Environmental Monitoring Installer | Application Component Installers are specified more by role than by function. Installers are responsible for the installation of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Environmental Monitoring Maintainer | Application Component Maintainers are specified more by role than by function. Maintainers are responsible for the maintenance (configuration changes, patches and updates, hardware repairs) of the application component, which may require a support system, and may entail agreements and relationships between end users and application providers. |
| Vehicle Environmental Monitoring Provider | Application Component Providers are specified more by role than by function. Providers are responsible for the development of the application component, including initial creation, enhancement and bug fixes. Delivery of the application to the end user may require relationships with other entities (installers, maintainers) if the provider chooses not to fulfill those roles. |
| Vehicle Manufacturer | The entity that builds, assembles, verifies and validates the Vehicle in which the Vehicle OBE will eventually operate. |
| Vehicle OBE Manufacturer | The entity that builds, assembles, verifies and validates the Vehicle OBE. This can be an OEM-equipped OBE, retrofit or aftermarket equipment. |
| Vehicle OBE Owner | The entity, individual, group or corporation that owns the Vehicle On-Board equipment. This could be the same as the Vehicle Owner, but it could be a third part that licenses the use of the OBE to the Owner. |
| Vehicle Owner | The individual, group of individuals or corporate entity that is identified as the registered owner of the Vehicle under state law. |
Includes Resources:
| Resource | Description |
|---|---|
| Application Component Certification Requirements | The requirements that define the functionality, performance and operational environment of an application component. Certification Requirements must be met in order for an application to be installed in the CVE. |
| Backoffice Service Development System | The systems used to develop backoffice (center) hardware and software components of applications. |
| Backoffice Service Installation System | The systems used to install and configure backoffice (center) hardware and software components. |
| Backoffice Service Maintenance System | The systems used to maintain and upgrade backoffice (center) hardware and software components. |
| Device Certification Requirements | The requirements that define the functionality, performance and operational environment of a connected vehicle device. Certification Requirements must be met in order for the device to be granted the credentials necessary to operate in the Connected Vehicle Environment. |
| Emissions Connected Vehicle Monitoring | "Emissions Connected Vehicle Monitoring" collects emissions data reported by passing vehicles and uses this data to support air quality management and planning. Coordination with traffic management supports air quality-responsive management of traffic. |
| Emissions Data Management | "Emissions Data Management" collects and stores air quality and vehicle emissions information by remotely monitoring and controlling area wide and point sensors. General air quality measures are distributed as general traveler information and also may be used in demand management programs. Collected roadside emissions are analyzed and used to detect, identify, and notify concerned parties regarding vehicles that exceed emissions standards. |
| Emissions Management Center | The 'Emissions Management Center' provides the capabilities for air quality managers to monitor and manage air quality. These capabilities include collecting emissions data from distributed emissions sensors (included in ITS Roadway Equipment in CVRIA) and directly from connected vehicles. The sensors monitor general air quality and also monitor the emissions of individual vehicles on the roadway. The measures are collected, processed, and used to support environmental monitoring applications. |
| Field Component Development System | The system used in a backoffice environment to develop and test the field component of the application. |
| Field Component Installation System | The system used to install a field component of a connected vehicle application. |
| Field Component Maintenance System | The system used to install and configure changes and updates to the field component of the application. This system is capable of acquiring and reporting diagnostic information about the application's configuration and performance. |
| ITS Certification Requirements | The requirements that define the functionality, performance and operational environment of an ITS device or ITS application. Applicability varies with jurisdictions, but typically devices and applications must meet pre-defined acceptance criteria prior to usage in the transportation environment. |
| ITS Field Component Development System | The system used in a backoffice environment to develop and test the ITS field component of the application. |
| ITS Field Component Installation System | The system used to install a field component of a connected vehicle application. |
| ITS Field Component Maintenance System | The system used to install and configure changes and updates to the ITS field component of the application. This system is capable of acquiring and reporting diagnostic information about the application's configuration and performance. |
| ITS Roadway Equipment | 'ITS Roadway Equipment' represents the ITS equipment that is distributed on and along the roadway that monitors and controls traffic and monitors and manages the roadway itself. In CVRIA, this physical object represents all of the other ITS field equipment that interfaces with and supports the Connected Vehicle Roadside Equipment (RSE). This physical object includes traffic detectors, environmental sensors, traffic signals, highway advisory radios, dynamic message signs, CCTV cameras and video image processing systems, grade crossing warning systems, and ramp metering systems. Lane management systems and barrier systems that control access to transportation infrastructure such as roadways, bridges and tunnels are also included. This object also provides environmental monitoring including sensors that measure road conditions, surface weather, and vehicle emissions. Work zone systems including work zone surveillance, traffic control, driver warning, and work crew safety systems are also included. |
| Mobile Component Development System | The system used in a backoffice environment to develop and test the mobile component of the application. |
| Mobile Component Installation System | The system that interacts with the Vehicle OBE other mobile device and installs the mobile component of the application. |
| Mobile Component Maintenance System | The system used to configure changes and updates to the mobile component of the application. This system is capable of acquiring and reporting diagnostic information about the application's configuration and performance. |
| Other Traffic Management Centers | Representing another Traffic Management Center, 'Other Traffic Management Centers' is intended to provide a source and destination for information exchange between peer (e.g. inter-regional) traffic management functions. It enables traffic management activities to be coordinated across different jurisdictional areas. |
| Roadside Equipment | 'Roadside Equipment' (RSE) represents the Connected Vehicle roadside devices that are used to send messages to, and receive messages from, nearby vehicles using Dedicated Short Range Communications (DSRC) or other alternative wireless communications technologies. Communications with adjacent field equipment and back office centers that monitor and control the RSE are also supported. This device operates from a fixed position and may be permanently deployed or a portable device that is located temporarily in the vicinity of a traffic incident, road construction, or a special event. It includes a processor, data storage, and communications capabilities that support secure communications with passing vehicles, other field equipment, and centers. |
| Roadway Basic Surveillance | "Roadway Basic Surveillance" monitors traffic conditions using fixed equipment such as loop detectors and CCTV cameras. |
| Roadway Emissions Monitoring | "Roadway Emissions Monitoring" monitors emissions and general air quality and communicates the collected information back to the emissions management center where it can be monitored, analyzed, and used. This application object supports point monitoring of individual vehicle emissions as well as general monitoring of standard air quality measures. |
| Roadway Environmental Monitoring | "Roadway Environmental Monitoring" measures environmental conditions and communicates the collected information back to a center where it can be monitored and analyzed. A broad array of general weather and road surface information may be collected. Weather conditions that may be measured include temperature, wind, humidity, precipitation, and visibility. Surface and sub-surface sensors can measure road surface temperature, moisture, icing, salinity, and other measures. |
| Roadway Signal Control | "Roadway Signal Control" includes the field elements that monitor and control signalized intersections. It includes the traffic signal controllers, detectors, conflict monitors, signal heads, and other ancillary equipment that supports traffic signal control. It also includes field masters, and equipment that supports communications with a central monitoring and/or control system, as applicable. The communications link supports upload and download of signal timings and other parameters and reporting of current intersection status. It represents the field equipment used in all levels of traffic signal control from basic actuated systems that operate on fixed timing plans through adaptive systems. It also supports all signalized intersection configurations, including those that accommodate pedestrians. In advanced, future implementations, environmental data may be monitored and used to support dilemma zone processing and other aspects of signal control that are sensitive to local environmental conditions. |
| RSE Development System | The system used in a backoffice environment to develop and test the roadside equipment. |
| RSE Environmental Monitoring | "RSE Environmental Monitoring" collects environmental situation (probe) data from passing vehicles that are equipped with short range communications capability. The collected data includes current environmental conditions as measured by on-board sensors (e.g., ambient temperature and precipitation measures), current status of vehicle systems that can be used to infer environmental conditions (e.g., status of lights, wipers, ABS, and traction control systems), and emissions measures reported by the vehicle. The application object collects the provided data, aggregates and filters the data based on provided configuration parameters, and sends the collected information back to a center for processing and distribution. This application object may also process the collected data locally and issue short-term road weather advisories for the road segment using short range communications. |
| RSE Installation System | The system used to install and configure the roadside equipment. |
| RSE Intersection Management | "RSE Intersection Management" uses short range communications to support connected vehicle applications that manage signalized intersections. It communicates with approaching vehicles and ITS infrastructure (e.g., the traffic signal controller) to enhance traffic signal operations. Coordination with the ITS infrastructure also supports conflict monitoring to ensure the RSE output and traffic signal control output are consistent and degrade in a fail safe manner. |
| RSE Maintenance System | The system used to configure changes and updates to the roadside equipment. This system is capable of acquiring and reporting diagnostic information about the RSE's configuration and performance. |
| RSE Traffic Monitoring | "RSE Traffic Monitoring" monitors the basic safety messages that are shared between connected vehicles and distills this data into traffic flow measures that can be used to manage the network in combination with or in lieu of traffic data collected by infrastructure-based sensors. As connected vehicle penetration rates increase, the measures provided by this application can expand beyond vehicle speeds that are directly reported by vehicles to include estimated volume, occupancy, and other measures. This object also supports incident detection by monitoring for changes in speed and vehicle control events that indicate a potential incident. |
| TMC Environmental Monitoring | "TMC Environmental Monitoring" assimilates current and forecast road conditions and surface weather information using a combination of weather service provider information, information collected by other centers such as the Maintenance and Construction Management Center, and data collected from environmental sensors deployed on and about the roadway. The collected environmental information is monitored and presented to the operator. This information can be used to issue general traveler advisories and support location specific warnings to drivers. |
| TMC Regional Traffic Management | "TMC Regional Traffic Management" supports coordination between traffic management centers in order to share traffic information between centers as well as control of traffic management field equipment. This coordination supports wide area optimization and regional coordination that spans jurisdictional boundaries; for example, coordinated signal control in a metropolitan area or coordination between freeway operations and arterial signal control within a corridor. |
| TMC Signal Control | "TMC Signal Control" provides the capability for traffic managers to monitor and manage the traffic flow at signalized intersections. This capability includes analyzing and reducing the collected data from traffic surveillance equipment and developing and implementing control plans for signalized intersections. Control plans may be developed and implemented that coordinate signals at many intersections under the domain of a single traffic management center and are responsive to traffic conditions and adapt to support incidents, preemption and priority requests, pedestrian crossing calls, etc. |
| TMC Traffic Surveillance | "TMC Traffic Surveillance" remotely monitors and controls traffic sensors and surveillance (e.g., CCTV) equipment, and collects, processes and stores the collected traffic data. Current traffic information and other real-time transportation information is also collected from other centers. The collected information is provided to traffic operations personnel and made available to other centers. |
| Traffic Management Center | The 'Traffic Management Center' monitors and controls traffic and the road network. It represents centers that manage a broad range of transportation facilities including freeway systems, rural and suburban highway systems, and urban and suburban traffic control systems. It communicates with ITS Roadway Equipment and Connected Vehicle Roadside Equipment (RSE) to monitor and manage traffic flow and monitor the condition of the roadway, surrounding environmental conditions, and field equipment status. It manages traffic and transportation resources to support allied agencies in responding to, and recovering from, incidents ranging from minor traffic incidents through major disasters. |
| Vehicle | The conveyance that provides the sensory, processing, storage, and communications functions necessary to support efficient, safe, and convenient travel. These functions reside in general vehicles including personal automobiles, commercial vehicles, emergency vehicles, transit vehicles, or other vehicle types. |
| Vehicle Basic Safety | "Vehicle Basic Safety" exchanges current vehicle location and motion information with other vehicles in the vicinity, uses that information to calculate vehicle paths, and warns the driver when the potential for an impending collision is detected. If available, map data is used to filter and interpret the relative location and motion of vehicles in the vicinity. Information from on-board sensors (e.g., radars and image processing) are also used, if available, in combination with the V2V communications to detect non-equipped vehicles and corroborate connected vehicle data. Vehicle location and motion broadcasts are also received by the infrastructure and used by the infrastructure to support a wide range of roadside safety and mobility applications. This object represents a broad range of implementations ranging from basic Vehicle Awareness Devices that only broadcast vehicle location and motion and provide no driver warnings to advanced integrated safety systems that may, in addition to warning the driver, provide collision warning information to support automated control functions that can support control intervention. |
| Vehicle Databus | The 'Vehicle Databus' represents the interface to the vehicle databus (e.g., CAN, LIN, Ethernet/IP, FlexRay, and MOST) that may enable communication between the Vehicle OBE and other vehicle systems to support connected vehicle applications. The vehicle system statuses and/or sensor outputs available on the databus will vary based on the equipment installed on the vehicle and availability on databus. System statuses and sensor outputs may include select vehicle systems and sensors such as accelerometers, yaw rate sensors, and GPS derived location and timing information. In CVRIA, this physical object is used to represent the onboard interactions between the Vehicle OBE and the other systems included in a host vehicle. Note that the vehicle databus interface is not standardized across all vehicle classes. Also, some Vehicle OBE implementations will not have access to the vehicle databus. See 'Vehicle OBE' for more information. |
| Vehicle Emissions Monitoring | "Vehicle Emissions Monitoring" directly measures or estimates current and average vehicle emissions and makes this data available to the driver and connected vehicle infrastructure systems. |
| Vehicle Environmental Monitoring | "Vehicle Environmental Monitoring" collects data from on-board sensors and systems related to environmental conditions and sends the collected data to the infrastructure as the vehicle travels. The collected data is a byproduct of vehicle safety and convenience systems and includes ambient air temperature and precipitation measures and status of the wipers, lights, ABS, and traction control systems. |
| Vehicle OBE | The Vehicle On-Board Equipment (OBE) provides the vehicle-based processing, storage, and communications functions necessary to support connected vehicle operations. The radio(s) supporting V2V and V2I communications are a key component of the Vehicle OBE. This communication platform is augmented with processing and data storage capability that supports the connected vehicle applications. In CVRIA, the Vehicle OBE includes the functions and interfaces that support connected vehicle applications for passenger cars, trucks, and motorcycles. Many of these applications (e.g., V2V Safety applications) apply to all vehicle types including personal vehicles, commercial vehicles, emergency vehicles, transit vehicles, and maintenance vehicles. From this perspective, the Vehicle OBE includes the common interfaces and functions that apply to all motorized vehicles. |
Includes Roles:
| Role | Description |
|---|---|
| Certifies | An Enterprise verifies that a target Resource meets relevant performance, functional, environmental and quality requirements. |
| Constrains | A Resource or Enterprise applies requirements, constraints and associated tests to another Resource. |
| Installs | An Enterprise performs the initial delivery, integration and configuration of the target Resource. |
| Maintains | An Enterprise administers the hardware and software that comprise the target Resource. |
| Member | An Enterprise is part of another larger, target Enterprise. |
| Operates | An Enterprise controls the functionality and state of the target Resource. An Enterprise that Operates a resource is considered Responsible. |
| Owns | An Enterprise has financial ownership and control over the Resource. An Enterprise that Owns a resource is considered Accountable. |
Includes Coordination:
| Coordination | Type | Description |
|---|---|---|
| Application Installation Data | Information Sharing | Data needed to install the application, including the application executable code and any configuration data. Unidirectional flow. |
| Application Interface Specification | Agreement | The definition of an interface between two application components that operate on two distinct pieces of hardware. The Application Interface Specification is specific to the application in question. |
| Application Maintenance Data | Information Sharing | Data used to facilitate the upgrade, patching and general health maintenance of an application component. |
| Application Performance Data | Information Sharing | Data used to characterize application performance, including such measures as availability, known errors and known uses. |
| Application Procurement Agreement | Agreement | An agreement whereupon one entity provides a copy of an application component to another entity. This component is capable of being installed and functioning, according to its requirements that passed through the application's certification process. |
| Application Usage Agreement | Agreement | An agreement in which one entity that controls an application component's use gives the other entity the necessary tools and permission to operate that application or application component. |
| Backoffice Component Installation Agreement | Agreement | An agreement that grants one party permission to install a backoffice application component on a center-based device controlled by the other party. |
| Backoffice Component Maintenance Agreement | Agreement | An agreement in which one entity maintains the operational status of the backoffice component of an application under the control of another entity. This maintenance may include routine and as-needed maintenance, such as software update and configuration, hardware replacement and related system administration activities. |
| Device Placement and Operations Agreement | Agreement | An agreement that enables the controller of a physical device to install it (so as to make it operational) at a fixed location controlled by another entity. |
| Employment Agreement | Agreement | An agreement between an individual and a corporation or government entity, whereupon the individual agrees to provide labor to the corporation/agency, which in turn compensates the employee. Stipulates level of compensation, working conditions, necessary equipment and training and expectations of employee performance. |
| Expectation of Data Provision | Expectation | An expectation where one party believes another party will provide data on a regular and recurring basis, and that that data will be useful to the receiver in the context of the receiver's application. This thus includes some expectation of data fields, timeliness, quality, precision and similar qualities of data. |
| Expectation of Information Provision | Expectation | An expectation where one party believes another party will provide it information whenever such information is likely relevant to the recipient. |
| Expectation of Safety Provision | Expectation | Users of the transportation environment expect that the entities that operate the environment do so in such a way as to preserve and enhance users' safety. This is inherent to current operations, and is an underlying assumption of drivers and pedestrians when accepting information from ITS. This expectation is explicitly noted for connected vehicle applications where this is a new relationship, whereupon the transportation system user expects a transportation service provider to do something (i.e., actuate a system or deliver information) that will protect and/or enhance the user's safety. |
| Field Component Installation Agreement | Agreement | An agreement that grants one party permission to install a field application component on a roadside device controlled by the other party. |
| Field Component Maintenance Agreement | Agreement | An agreement in which one entity maintains the operational status of the field component of an application under the control of another entity. This maintenance may include routine and as-needed maintenance, such as software update and configuration, hardware replacement and related system administration activities. |
| Includes | Includes | Indicates that one component is entirely contained within another component. |
| Information Exchange Agreement | Agreement | An agreement to exchange information, which may include data or control information; the exact information to be exchanged may vary from agreement to agreement. |
| Information Exchange and Action Agreement | Agreement | An agreement to exchange information, which may include data or control information; the exact information to be exchanged may vary from agreement to agreement. This also includes a specification for action that shall, should or may be taken by one party in response to this information. |
| Information Provision Agreement | Agreement | An agreement where one party agrees to provide information to another party. This is a unidirectional agreement. |
| Installation Agreement | Agreement | An agreement whereupon one entity installs an application component on a device controlled by another entity. |
| Interface Description | Agreement | Documentation of the interface between two systems, where one system does not have an application component that is part of the application, but does provide and/or receive data and/or information that is used by or sourced from the application. In many cases this is an existing interface used by the application, so the description of the interface already exists and is imposed by the terminator. |
| Interface Specification | Agreement | The definition of interface between two hardware components that must share data. |
| Maintenance Agreement | Agreement | An agreement in which one entity maintains the operational status of a system under the control of another entity. This maintenance may include routine and as-needed maintenance, such as software update and configuration, hardware replacement and related system administration activities. |
| Maintenance Data Exchange Agreement | Agreement | An agreement that states one entity will provide data related to maintenance of an application component to the other entity. |
| Mobile Component Installation Agreement | Agreement | An agreement whereupon the controller of OBE gives another party permission to install, configure and make operational a component that enables the mobile portion of an application. |
| Mobile Component License Agreement | Agreement | An end-user license agreement allowing the operator of the mobile device to use the mobile application component that is part of the application in question. |
| Mobile Component Maintenance Agreement | Agreement | An agreement in which one entity maintains the operational status of the mobile component of an application under the control of another entity. This maintenance may include routine and as-needed maintenance, such as software update and configuration, hardware replacement and related system administration activities. |
| Operations Agreement | Agreement | An agreement where one entity agrees to operate a device or application on behalf of another, device/application controlling entity. |
| RSE Deployment Agreement | Agreement | Agreement to install, configure and make operational roadside equipment, between the provider of that equipment and the entity that controls access to the roadside. May define locations, expectation of power provision, backhaul responsibility and installation restrictions. |
| RSE Installation Data | Information Sharing | Data necessary to configure and make RSE operational. Uni-directional. |
| RSE Maintenance Data | Information Sharing | Data necessary to modify the operational configuration of RSE; assumes RSE is already configured. Uni-directional. |
| RSE Performance Data | Information Sharing | Data that includes metrics of RSE performance. Could include fields such as uptime, packets received/transmitted, distance vector from which packets received, as well as application-specific performance measures. |
| RSE Procurement Agreement | Agreement | An agreement whereupon one entity provides roadside equipment to another entity. The RSE is capable of being installed and functioning, according to its requirements that passed through the device's certification process. |
| Service Delivery Agreement | Agreement | A relationship where one party agrees to provide a service to the other party. This agreement may specify the expected performance of this service in terms of availability and/or actions/time-type performance specifications. |
| Vehicle Data Access Agreement | Agreement | An agreement whereby the party that controls access to on-board vehicle data grants another party the right and ability to access that data. Includes the conditions under which data may be accessed, and specifies the mechanisms, including physical and functional access methods, data formats and any other considerations necessary for the accessing party to acquire data. May also include caveats regarding responsibility for data quality and responsibility for use of the data. |
| Vehicle OBE Usage Agreement | Agreement | An agreement that grants one entity permission to use a Vehicle OBE that the other party controls. |
| Vehicle Procurement Agreement | Agreement | The exchange of a vehicle for compensation. One entity purchases the vehicle from the other. |
| Vehicle Usage Agreement | Agreement | An agreement between the owner of a vehicle and a prospective operator, whereupon the owner allows the operator to use the vehicle. |
| Warranty | Agreement | A guarantee or promise made by one entity to another, that provides assurance of the functionality and performance over time of an application component. |
Functional
Includes Processes:
Includes Data Flows:
Physical
This is one way this application may be realized, but not the only way. There are other ways to build a given application and accomplish a stated objective.
The physical diagram can be viewed in SVG or PNG format and the current format is SVG. SVG Diagram
PNG Diagram
Includes Physical Objects:
| Physical Object | Class | Description |
|---|---|---|
| Driver | Vehicle | The 'Driver' represents the person that operates a vehicle on the roadway. Included are operators of private, transit, commercial, and emergency vehicles where the interactions are not particular to the type of vehicle (e.g., interactions supporting vehicle safety applications). The Driver originates driver requests and receives driver information that reflects the interactions which might be useful to all drivers, regardless of vehicle classification. Information and interactions which are unique to drivers of a specific vehicle type (e.g., fleet interactions with transit, commercial, or emergency vehicle drivers) are covered by separate objects. |
| Emissions Management Center | Center | The 'Emissions Management Center' provides the capabilities for air quality managers to monitor and manage air quality. These capabilities include collecting emissions data from distributed emissions sensors (included in ITS Roadway Equipment in CVRIA) and directly from connected vehicles. The sensors monitor general air quality and also monitor the emissions of individual vehicles on the roadway. The measures are collected, processed, and used to support environmental monitoring applications. |
| ITS Roadway Equipment | Field | 'ITS Roadway Equipment' represents the ITS equipment that is distributed on and along the roadway that monitors and controls traffic and monitors and manages the roadway itself. In CVRIA, this physical object represents all of the other ITS field equipment that interfaces with and supports the Connected Vehicle Roadside Equipment (RSE). This physical object includes traffic detectors, environmental sensors, traffic signals, highway advisory radios, dynamic message signs, CCTV cameras and video image processing systems, grade crossing warning systems, and ramp metering systems. Lane management systems and barrier systems that control access to transportation infrastructure such as roadways, bridges and tunnels are also included. This object also provides environmental monitoring including sensors that measure road conditions, surface weather, and vehicle emissions. Work zone systems including work zone surveillance, traffic control, driver warning, and work crew safety systems are also included. |
| Other Traffic Management Centers | Center | Representing another Traffic Management Center, 'Other Traffic Management Centers' is intended to provide a source and destination for information exchange between peer (e.g. inter-regional) traffic management functions. It enables traffic management activities to be coordinated across different jurisdictional areas. |
| Pedestrians | Traveler | 'Pedestrians' participate in connected vehicle applications that support safe, shared use of the transportation network by motorized and non-motorized transportation modes. Representing those using non-motorized travel modes, pedestrians provide input (e.g. a call signal requesting right of way at an intersection) and may be detected by connected vehicle applications to improve safety. Note that pedestrians represent all non-motorized users, including bicyclists. |
| Roadside Equipment | Field | 'Roadside Equipment' (RSE) represents the Connected Vehicle roadside devices that are used to send messages to, and receive messages from, nearby vehicles using Dedicated Short Range Communications (DSRC) or other alternative wireless communications technologies. Communications with adjacent field equipment and back office centers that monitor and control the RSE are also supported. This device operates from a fixed position and may be permanently deployed or a portable device that is located temporarily in the vicinity of a traffic incident, road construction, or a special event. It includes a processor, data storage, and communications capabilities that support secure communications with passing vehicles, other field equipment, and centers. |
| Traffic Management Center | Center | The 'Traffic Management Center' monitors and controls traffic and the road network. It represents centers that manage a broad range of transportation facilities including freeway systems, rural and suburban highway systems, and urban and suburban traffic control systems. It communicates with ITS Roadway Equipment and Connected Vehicle Roadside Equipment (RSE) to monitor and manage traffic flow and monitor the condition of the roadway, surrounding environmental conditions, and field equipment status. It manages traffic and transportation resources to support allied agencies in responding to, and recovering from, incidents ranging from minor traffic incidents through major disasters. |
| Traffic Operations Personnel | Center | 'Traffic Operations Personnel' represents the people that operate a traffic management center. These personnel interact with traffic control systems, traffic surveillance systems, incident management systems, work zone management systems, and travel demand management systems. They provide operator data and command inputs to direct system operations to varying degrees depending on the type of system and the deployment scenario. |
| Vehicle Databus | Vehicle | The 'Vehicle Databus' represents the interface to the vehicle databus (e.g., CAN, LIN, Ethernet/IP, FlexRay, and MOST) that may enable communication between the Vehicle OBE and other vehicle systems to support connected vehicle applications. The vehicle system statuses and/or sensor outputs available on the databus will vary based on the equipment installed on the vehicle and availability on databus. System statuses and sensor outputs may include select vehicle systems and sensors such as accelerometers, yaw rate sensors, and GPS derived location and timing information. In CVRIA, this physical object is used to represent the onboard interactions between the Vehicle OBE and the other systems included in a host vehicle. Note that the vehicle databus interface is not standardized across all vehicle classes. Also, some Vehicle OBE implementations will not have access to the vehicle databus. See 'Vehicle OBE' for more information. |
| Vehicle OBE | Vehicle | The Vehicle On-Board Equipment (OBE) provides the vehicle-based processing, storage, and communications functions necessary to support connected vehicle operations. The radio(s) supporting V2V and V2I communications are a key component of the Vehicle OBE. This communication platform is augmented with processing and data storage capability that supports the connected vehicle applications. In CVRIA, the Vehicle OBE includes the functions and interfaces that support connected vehicle applications for passenger cars, trucks, and motorcycles. Many of these applications (e.g., V2V Safety applications) apply to all vehicle types including personal vehicles, commercial vehicles, emergency vehicles, transit vehicles, and maintenance vehicles. From this perspective, the Vehicle OBE includes the common interfaces and functions that apply to all motorized vehicles. |
Includes Application Objects:
| Application Object | Description | Physical Object |
|---|---|---|
| Emissions Connected Vehicle Monitoring | "Emissions Connected Vehicle Monitoring" collects emissions data reported by passing vehicles and uses this data to support air quality management and planning. Coordination with traffic management supports air quality-responsive management of traffic. | Emissions Management Center |
| Emissions Data Management | "Emissions Data Management" collects and stores air quality and vehicle emissions information by remotely monitoring and controlling area wide and point sensors. General air quality measures are distributed as general traveler information and also may be used in demand management programs. Collected roadside emissions are analyzed and used to detect, identify, and notify concerned parties regarding vehicles that exceed emissions standards. | Emissions Management Center |
| Roadway Basic Surveillance | "Roadway Basic Surveillance" monitors traffic conditions using fixed equipment such as loop detectors and CCTV cameras. | ITS Roadway Equipment |
| Roadway Emissions Monitoring | "Roadway Emissions Monitoring" monitors emissions and general air quality and communicates the collected information back to the emissions management center where it can be monitored, analyzed, and used. This application object supports point monitoring of individual vehicle emissions as well as general monitoring of standard air quality measures. | ITS Roadway Equipment |
| Roadway Environmental Monitoring | "Roadway Environmental Monitoring" measures environmental conditions and communicates the collected information back to a center where it can be monitored and analyzed. A broad array of general weather and road surface information may be collected. Weather conditions that may be measured include temperature, wind, humidity, precipitation, and visibility. Surface and sub-surface sensors can measure road surface temperature, moisture, icing, salinity, and other measures. | ITS Roadway Equipment |
| Roadway Signal Control | "Roadway Signal Control" includes the field elements that monitor and control signalized intersections. It includes the traffic signal controllers, detectors, conflict monitors, signal heads, and other ancillary equipment that supports traffic signal control. It also includes field masters, and equipment that supports communications with a central monitoring and/or control system, as applicable. The communications link supports upload and download of signal timings and other parameters and reporting of current intersection status. It represents the field equipment used in all levels of traffic signal control from basic actuated systems that operate on fixed timing plans through adaptive systems. It also supports all signalized intersection configurations, including those that accommodate pedestrians. In advanced, future implementations, environmental data may be monitored and used to support dilemma zone processing and other aspects of signal control that are sensitive to local environmental conditions. | ITS Roadway Equipment |
| RSE Environmental Monitoring | "RSE Environmental Monitoring" collects environmental situation (probe) data from passing vehicles that are equipped with short range communications capability. The collected data includes current environmental conditions as measured by on-board sensors (e.g., ambient temperature and precipitation measures), current status of vehicle systems that can be used to infer environmental conditions (e.g., status of lights, wipers, ABS, and traction control systems), and emissions measures reported by the vehicle. The application object collects the provided data, aggregates and filters the data based on provided configuration parameters, and sends the collected information back to a center for processing and distribution. This application object may also process the collected data locally and issue short-term road weather advisories for the road segment using short range communications. | Roadside Equipment |
| RSE Intersection Management | "RSE Intersection Management" uses short range communications to support connected vehicle applications that manage signalized intersections. It communicates with approaching vehicles and ITS infrastructure (e.g., the traffic signal controller) to enhance traffic signal operations. Coordination with the ITS infrastructure also supports conflict monitoring to ensure the RSE output and traffic signal control output are consistent and degrade in a fail safe manner. | Roadside Equipment |
| RSE Traffic Monitoring | "RSE Traffic Monitoring" monitors the basic safety messages that are shared between connected vehicles and distills this data into traffic flow measures that can be used to manage the network in combination with or in lieu of traffic data collected by infrastructure-based sensors. As connected vehicle penetration rates increase, the measures provided by this application can expand beyond vehicle speeds that are directly reported by vehicles to include estimated volume, occupancy, and other measures. This object also supports incident detection by monitoring for changes in speed and vehicle control events that indicate a potential incident. | Roadside Equipment |
| TMC Environmental Monitoring | "TMC Environmental Monitoring" assimilates current and forecast road conditions and surface weather information using a combination of weather service provider information, information collected by other centers such as the Maintenance and Construction Management Center, and data collected from environmental sensors deployed on and about the roadway. The collected environmental information is monitored and presented to the operator. This information can be used to issue general traveler advisories and support location specific warnings to drivers. | Traffic Management Center |
| TMC Regional Traffic Management | "TMC Regional Traffic Management" supports coordination between traffic management centers in order to share traffic information between centers as well as control of traffic management field equipment. This coordination supports wide area optimization and regional coordination that spans jurisdictional boundaries; for example, coordinated signal control in a metropolitan area or coordination between freeway operations and arterial signal control within a corridor. | Traffic Management Center |
| TMC Signal Control | "TMC Signal Control" provides the capability for traffic managers to monitor and manage the traffic flow at signalized intersections. This capability includes analyzing and reducing the collected data from traffic surveillance equipment and developing and implementing control plans for signalized intersections. Control plans may be developed and implemented that coordinate signals at many intersections under the domain of a single traffic management center and are responsive to traffic conditions and adapt to support incidents, preemption and priority requests, pedestrian crossing calls, etc. | Traffic Management Center |
| TMC Traffic Surveillance | "TMC Traffic Surveillance" remotely monitors and controls traffic sensors and surveillance (e.g., CCTV) equipment, and collects, processes and stores the collected traffic data. Current traffic information and other real-time transportation information is also collected from other centers. The collected information is provided to traffic operations personnel and made available to other centers. | Traffic Management Center |
| Vehicle Basic Safety | "Vehicle Basic Safety" exchanges current vehicle location and motion information with other vehicles in the vicinity, uses that information to calculate vehicle paths, and warns the driver when the potential for an impending collision is detected. If available, map data is used to filter and interpret the relative location and motion of vehicles in the vicinity. Information from on-board sensors (e.g., radars and image processing) are also used, if available, in combination with the V2V communications to detect non-equipped vehicles and corroborate connected vehicle data. Vehicle location and motion broadcasts are also received by the infrastructure and used by the infrastructure to support a wide range of roadside safety and mobility applications. This object represents a broad range of implementations ranging from basic Vehicle Awareness Devices that only broadcast vehicle location and motion and provide no driver warnings to advanced integrated safety systems that may, in addition to warning the driver, provide collision warning information to support automated control functions that can support control intervention. | Vehicle OBE |
| Vehicle Emissions Monitoring | "Vehicle Emissions Monitoring" directly measures or estimates current and average vehicle emissions and makes this data available to the driver and connected vehicle infrastructure systems. | Vehicle OBE |
| Vehicle Environmental Monitoring | "Vehicle Environmental Monitoring" collects data from on-board sensors and systems related to environmental conditions and sends the collected data to the infrastructure as the vehicle travels. The collected data is a byproduct of vehicle safety and convenience systems and includes ambient air temperature and precipitation measures and status of the wipers, lights, ABS, and traction control systems. | Vehicle OBE |
Includes Information Flows:
| Information Flow | Description |
|---|---|
| crossing permission | Information provided to guide and warn pedestrians at crossings including crossing permission, crossing time remaining, and real-time warnings of safety threats. |
| device data | Data from detectors, environmental sensor stations, and traffic control devices including device inventory information. |
| device status | Status information from devices |
| driver information | Regulatory, warning, and guidance information provided to the driver while en route to support safe and efficient vehicle operation. |
| driver input | Driver input to the vehicle on-board equipment including configuration data, settings and preferences, interactive requests, and control commands. |
| driver input information | Driver input received from the driver-vehicle interface equipment via the vehicle bus. It includes configuration data, settings and preferences, interactive requests, and control commands for the connected vehicle on-board equipment. |
| driver update information | Information provided to the driver-vehicle interface to inform the driver about current conditions, potential hazards, and the current status of vehicle on-board equipment. The flow includes the information to be presented to the driver and associated metadata that supports processing, prioritization, and presentation by the DVI as visual displays, audible information and warnings, and/or haptic feedback. |
| driver updates | Information provided to the driver including visual displays, audible information and warnings, and haptic feedback. The updates inform the driver about current conditions, potential hazards, and the current status of vehicle on-board equipment. |
| emissions situation data | Emissions-related data as measured and reported by connected vehicles. This flow carries aggregated and filtered data including average and current emissions reported by vehicles as well as associated data (vehicle profiles and speeds) that can be used to estimate aggregate emissions. |
| environmental sensor data | Current road conditions (e.g., surface temperature, subsurface temperature, moisture, icing, treatment status) and surface weather conditions (e.g., air temperature, wind speed, precipitation, visibility) as measured and reported by fixed and/or mobile environmental sensors. Operational status of the sensors is also included. |
| environmental sensors control | Data used to configure and control environmental sensors. |
| environmental situation data | Aggregated and filtered vehicle environmental data collected from vehicle safety and convenience systems including measured air temperature, exterior light status, wiper status, sun sensor status, rain sensor status, traction control status, anti-lock brake status, and other collected vehicle system status and sensor information. This information flow represents the aggregated and filtered environmental data sets that are provided by the RSE to the back office center. Depending on the RSE configuration and implementation, the data set may also include environmental sensor station data collected by the RSE. |
| host vehicle status | Information provided to the connected vehicle on-board equipment from other systems on the vehicle platform. This includes data from on-board sensors, the current status of the powertrain, steering, and braking systems, and status of safety and convenience systems. In implementations where GPS is not integrated into the Vehicle On-Board Equipment, the host vehicle is also the source for data describing the vehicle's location in three dimensions (latitude, longitude, elevation) and accurate time that can be used for time synchronization across the Connected Vehicle environment. |
| intersection management application info | Intersection and device configuration data and warning parameters and thresholds. This flow also supports remote control of the application so the application can be taken offline, reset, or restarted. |
| intersection management application status | Infrastructure application status reported by the RSE. This includes current operational state and status of the RSE and a log of operations. |
| mobile source emissions data | Measured and/or estimated emissions at point locations from mobile sources including cars and light trucks, heavy trucks and buses. Where applicable, this flow may also include emissions measures or estimates from non-road engines and portable equipment at the location. |
| pedestrian detection | Pedestrian request to cross the roadway. This may be an overt (e.g., push button) request from a pedestrian or the physical presence of a pedestrian that can be detected by sensors or surveillance systems. |
| road network conditions | Current and forecasted traffic information, road and weather conditions, and other road network status. Either raw data, processed data, or some combination of both may be provided by this flow. Information on diversions and alternate routes, closures, and special traffic restrictions (lane/shoulder use, weight restrictions, width restrictions, HOV requirements) in effect is included. |
| signal control commands | Control of traffic signal controllers or field masters including clock synchronization. |
| signal control device configuration | Data used to configure traffic signal control equipment including local controllers and system masters. |
| signal control plans | Traffic signal timing parameters including minimum green time and interval durations for basic operation and cycle length, splits, offset, phase sequence, etc. for coordinated systems. |
| signal control status | Operational and status data of traffic signal control equipment including operating condition and current indications. |
| signal service request | A call for service or extension for a signal control phase that is issued by the RSE for connected vehicles approaching an intersection and/or pedestrians at a crosswalk. This flow identifies the desired phase and service time. |
| signal system configuration | Data used to configure traffic signal systems including configuring control sections and mode of operation (time based or traffic responsive). |
| traffic flow | Raw and/or processed traffic detector data which allows derivation of traffic flow variables (e.g., speed, volume, and density measures) and associated information (e.g., congestion, potential incidents). This flow includes the traffic data and the operational status of the traffic detectors. |
| traffic operator data | Presentation of traffic operations data to the operator including traffic conditions, current operating status of field equipment, maintenance activity status, incident status, video images, security alerts, emergency response plan updates and other information. This data keeps the operator appraised of current road network status, provides feedback to the operator as traffic control actions are implemented, provides transportation security inputs, and supports review of historical data and preparation for future traffic operations activities. |
| traffic operator input | User input from traffic operations personnel including requests for information, configuration changes, commands to adjust current traffic control strategies (e.g., adjust signal timing plans, change DMS messages), and other traffic operations data entry. |
| traffic sensor control | Information used to configure and control traffic sensor systems. |
| traffic situation data | Current, aggregate traffic data collected from connected vehicles that can be used to supplement or replace information collected by roadside traffic detectors. It includes raw and/or processed reported vehicle speeds, counts, and other derived measures. Raw and/or filtered vehicle control events may also be included to support incident detection. |
| vehicle emissions data | Measured emissions of specific vehicles comprised of exhaust pollutants including hydrocarbons, carbon monoxide, and nitrogen oxides. |
| vehicle emissions monitoring parameters | Data used to configure and control roadside equipment applications that monitor emissions-related data reported by passing vehicles. The parameters include identification of the emissions-related data to be monitored and thresholds for aggregating, filtering, and reporting the collected data. |
| vehicle environmental data | Data from vehicle safety and convenience systems that can be used to estimate environmental conditions, including measured air temperature, exterior light status, wiper status, sun sensor status, rain sensor status, traction control status, anti-lock brake status, and other collected vehicle system status and sensor information. The collected data is reported along with the location, heading, and time that the data was collected. Both current data and snapshots of recent events (e.g., traction control or anti-lock brake system activations) may be reported. |
| vehicle location and motion for surveillance | Data describing the vehicle's location in three dimensions, heading, speed, acceleration, braking status, and size. This flow represents monitoring of basic safety data ('vehicle location and motion') broadcast by passing connected vehicles for use in vehicle detection and traffic monitoring applications. |
| vehicle reported emissions | Current and average vehicle emissions data as measured by vehicle diagnostics systems and reported by the vehicle. |
Application Interconnect Diagram
This is one way this application may be realized, but not the only way. There are other ways to build a given application and accomplish a stated objective.
The application interconnect diagram can be viewed in SVG or PNG format and the current format is SVG. SVG Diagram
PNG Diagram
Application Triples
Requirements
| Need | Requirement | ||
|---|---|---|---|
| N1.001 | Transportation agencies need to gather data from vehicles or infrastructure to support environmental monitoring. | 1.001 | All environmental applications shall collect data from mobile devices to support environmental monitoring, including ambient air quality, emissions, temperature, precipitation, and other road weather information. |
| 1.002 | All environmental applications shall collect data from infrastructure devices to support environmental monitoring, including ambient air quality, emissions, temperature, precipitation, wind speed, and other road weather information. | ||
| N1.038 | The Eco-Traffic Signal Timing needs to collect data to accurately know current and forecasted conditions in order to improve the traffic signal system. | 1.106 | The Eco-Traffic Signal Timing System shall collect traffic data (e.g., volume, speed, occupancy, vehicle classification, turning movements, incidents, engine type, pedestrian calls or presence at traffic signals, vehicle type, and vehicle position). |
| 1.129 | The Eco-Traffic Signal Timing System shall collect environmental data (e.g. ambient air quality, emissions, temperature, wind speed, and other road weather information). | ||
| 1.139 | The Eco-Traffic Signal Timing System shall collect data on the operational status of traffic signal equipment (e.g., traffic signal controller) including the current timing plan in operation. | ||
| 1.140 | The Eco-Traffic Signal Timing System shall collect data entered by personnel operating the system. | ||
| 1.141 | The Eco-Traffic Signal Timing System shall collect descriptions about the static physical geometry at intersections and arterial roadway segments. | ||
| N1.042 | The Eco-Traffic Signal Timing needs to process data to accurately know current and forecasted conditions in order to improve the traffic signal system. | 1.107 | The Eco-Traffic Signal Timing System shall synthesize environmental data from multiple sources (e.g., sensors, connected vehicle roadside equipment, and other centers) to generate predicted emissions aggregated at different levels (e.g., intersection, corridor, and regional levels). |
| 1.108 | The Eco-Traffic Signal Timing System shall generate traffic signal timing plans (e.g., cycle lengths, phases, offsets and other parameters) using processed traffic data, predicted traffic data, and environmental data. | ||
| 1.142 | The Eco-Traffic Signal Timing System needs to synthesize traffic data from multiple sources (e.g., fixed sensors, connected vehicle roadway equipment, other centers) to provide traffic analyses aggregated at different levels (e.g., intersection, corridor, and regional levels). | ||
| 1.143 | The Eco-Traffic Signal Timing System shall use historical and processed traffic data to predict traffic conditions aggregated at different levels (e.g., intersection, corridor, and regional levels). | ||
| 1.144 | The Eco-Traffic Signal Timing System shall synthesize environmental data from multiple sources (e.g., fixed sensors, connected vehicle roadside equipment, and other centers) to provide emissions analyses aggregated at different levels (e.g., intersection, corridor, and regional levels). | ||
| N1.043 | The Eco-Traffic Signal Timing needs to disseminate data that improves the traffic signal system to end users. | 1.110 | The Eco-Traffic Signal Timing System shall disseminate traffic data and traffic signal timing plans to other jurisdictions to enable coordination of timing plans and other operational strategies for a corridor or a region. |
| 1.112 | The Eco-Traffic Signal Timing System shall provide traffic condition messages to vehicles. | ||
| 1.113 | The Eco-Traffic Signal Timing System shall disseminate environmental data (e.g., regional and/or local air quality, temperature, precipitation) to other centers. | ||
| 1.116 | The Eco-Traffic Signal Timing System shall provide traffic signal timing plans (e.g., cycle lengths, phases, offsets and other parameters) to the traffic signal controller. | ||
| N1.045 | The Eco-Traffic Signal Timing needs to archive data that improves the traffic signal system in the future. | 1.119 | The Eco-Traffic Signal Timing System shall archive traffic data, environmental data, operations data (e.g., status of traffic signals), and event logs (e.g., signal priority requests). |
| 1.120 | The Eco-Traffic Signal Timing System shall determine performance measures and make them available to the operator. | ||
Related Sources
- Eco-Signal Operations: Operational Concept, Final, 10/1/2013
Security
In order to participate in this application, each physical object should meet or exceed the following security levels.
| Physical Object Security | ||||
|---|---|---|---|---|
| Physical Object | Confidentiality | Integrity | Availability | Security Class |
| Security levels have not been defined yet. | ||||
In order to participate in this application, each information flow triple should meet or exceed the following security levels.
| Information Flow Security | |||||
|---|---|---|---|---|---|
| Source | Destination | Information Flow | Confidentiality | Integrity | Availability |
| Basis | Basis | Basis | |||
| Security levels have not been defined yet. | |||||