Interface: Oneida Transit - WisDOT_DTSD_NE Region
Architecture Flow Definitions
request transit information (Planned) Applicable ITS Standards
Request for transit service information and current transit status.
road network conditions (Existing) Applicable ITS Standards
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 architecture 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 along with a definition of the links, nodes, and routes that make up the road network.
selected routes (Planned) Applicable ITS Standards
Routes selected based on route request criteria.
transit and fare schedules (Planned) Applicable ITS Standards
Transit service information including routes, schedules, and fare information.
transit demand management request (Existing) Applicable ITS Standards
Request to change the demand for transit facility use through pricing or other mechanisms.
transit demand management response (Existing) Applicable ITS Standards
Response to transit demand management change requests indicating level of compliance with request.
transit incident information (Planned) Applicable ITS Standards
Information on transit incidents that impact transit services for public dissemination.
transit information request (Planned) Applicable ITS Standards
Request for transit operations information including schedule and fare information. The request can be a subscription that initiates as-needed information updates as well as a one-time request for information.
transit system data (Planned) Applicable ITS Standards
Current transit system operations information indicating current transit routes, the level of service on each route, and the progress of individual vehicles along their routes for use in forecasting demand and estimating current transportation network performance.