Physical Object: Vehicle

Vehicle Cooperative Cruise Control

Overview

'Vehicle Cooperative Cruise Control' uses V2V communications to share speeds and coordinate maneuvers with adjacent vehicles in the same lane (a CACC 'string'), maintaining vehicle speed and a safe gap with the predecessor vehicle. It provides the capability for vehicles to cluster into strings of CACC-equipped vehicles with compatible performance characteristics and share speed, location, acceleration/deceleration, path predictions (e.g., intended acceleration/deceleration) with other vehicles in the string. These capabilities are provided by systems on board the vehicle that coordinate with other vehicles and control acceleration and braking. In advanced implementations, the capability to coordinate with the infrastructure to support more advanced clustering strategies and use infrastructure provided target speed and traffic control information to improve performance.

This functional object is included in the "Vehicle" physical object.

This functional object is included in the following service packages:

This functional object is mapped to the following Functional View PSpecs:

Requirements

# Requirement
01The vehicle shall be capable of implementing cruise control strategies based upon sensor inputs from the vehicle.
02The vehicle shall accept configuration inputs from the driver for the cruise control strategy to employ.
03The vehicle shall exchange movement data (time, location, velocity, forward gap, heading, acceleration) with other vehicles via V2V communications.
04The vehicle shall be capable of joining a platoon by determining the recommended platoon entry location and the timing for the vehicle to enter a platoon.
05The vehicle shall coordinate acceleration and braking with adjacent vehicles in the same lane (a platoon), maintaining vehicle speed and a safe gap with the vehicle in front of it.
06The vehicle shall communicate the current speed and gap policy to the driver interface system for display to the driver.
07The vehicle shall receive automated highway system status, warnings and collision avoidance data (intersection congestion, approaching vehicles, potential collision hazards, etc.) from the roadway field equipment.
08The vehicle shall send appropriate control actions to the vehicle's accelerator, braking and steering actuators when operating in an automated lane.
09The vehicle shall provide a means for the driver to accept, reject, and modify a given speed and gap policy.
10The vehicle shall exchange data with other vehicles in the platoon to share vehicle status information, roadway condition data, and initiate vehicle actuator controls to maintain safe following distances.
11The vehicle shall determine recommended platoon exit location and timing for the vehicle to exit a platoon.
12The vehicles shall determine the appropriate time to restore longitudinal vehicle control to the driver upon CACC platoon exit.
13The vehicle shall allow the vehicle to leave the platoon if cruise control is disabled.
14The vehicle shall allow the vehicle to leave the platoon based on driver input of desire to leave.
15The vehicle shall exchange weather data (time, location, external air temperature, barometric pressure, wiper status, headlight status), road surface data (time, location, traction control status, stability control status, differential wheel speed) with other connected vehicles to support platoon operations.
16The vehicle shall allow the driver to engage or disengage advanced cruise control and adjust control strategies.
17The vehicle shall have the ability to receive platoon-level gap and speed policy recommendations from infrastructure-based systems.
18The vehicle shall send platoon information to the infrastructure in order to support infrastructure inputs to the platoon gap and speed strategies.
19The Vehicle shall implement cruise controls strategies in order to provide advanced cruise control in normal vehicle operation.
20The Vehicle shall provide its location with lane-level accuracy to on-board cooperative cruise control applications.

Information Flows

Source Flow Destination
Basic Vehicle driver input information Vehicle
Basic Vehicle host vehicle status Vehicle
Connected Vehicle Roadside Equipment cooperative adaptive cruise control parameters Vehicle
Connected Vehicle Roadside Equipment speed management information Vehicle
Connected Vehicle Roadside Equipment vehicle cluster coordination Vehicle
Driver driver input Vehicle
Other Vehicles vehicle cluster coordination Vehicle
Other Vehicles vehicle profile Vehicle
Transportation Information Center cooperative adaptive cruise control parameters Vehicle
Transportation Information Center speed management information Vehicle
Transportation Information Center vehicle cluster coordination Vehicle
Vehicle driver update information Basic Vehicle
Vehicle vehicle control Basic Vehicle
Vehicle cooperative adaptive cruise control status Connected Vehicle Roadside Equipment
Vehicle vehicle cluster coordination Connected Vehicle Roadside Equipment
Vehicle vehicle profile Connected Vehicle Roadside Equipment
Vehicle driver updates Driver
Vehicle vehicle profile Multi-Access Edge Computing
Vehicle vehicle cluster coordination Other Vehicles
Vehicle vehicle profile Other Vehicles
Vehicle vehicle profile Parking Area Equipment
Vehicle vehicle profile Parking Management Center
Vehicle cooperative adaptive cruise control status Transportation Information Center
Vehicle vehicle cluster coordination Transportation Information Center
Vehicle vehicle profile Transportation Information Center
Vehicle vehicle profile Vehicle Operations and Service Center

Standards

Currently, there are no standards associated with the functional object itself though the interfaces may have standards associated with them.