SemanticWeb::Schema::Vehicle - A vehicle is a device that is designed or used to transport people or cargo over land
version v11.0.0
A vehicle is a device that is designed or used to transport people or cargo over land, water, air, or through space.
acceleration_time
accelerationTime
The time needed to accelerate the vehicle from a given start velocity to a given target velocity.\n\nTypical unit code(s): SEC for seconds\n\n* Note: There are unfortunately no standard unit codes for seconds/0..100 km/h or seconds/0..60 mph. Simply use "SEC" for seconds and indicate the velocities in the [[name]] of the [[QuantitativeValue]], or use [[valueReference]] with a [[QuantitativeValue]] of 0..60 mph or 0..100 km/h to specify the reference speeds.
A acceleration_time should be one of the following types:
InstanceOf['SemanticWeb::Schema::QuantitativeValue']
_has_acceleration_time
A predicate for the "acceleration_time" attribute.
body_type
bodyType
Indicates the design and body style of the vehicle (e.g. station wagon, hatchback, etc.).
A body_type should be one of the following types:
InstanceOf['SemanticWeb::Schema::QualitativeValue']
Str
_has_body_type
A predicate for the "body_type" attribute.
call_sign
callSign
A [callsign](https://en.wikipedia.org/wiki/Call_sign), as used in broadcasting and radio communications to identify people, radio and TV stations, or vehicles.
A call_sign should be one of the following types:
_has_call_sign
A predicate for the "call_sign" attribute.
cargo_volume
cargoVolume
The available volume for cargo or luggage. For automobiles, this is usually the trunk volume.\n\nTypical unit code(s): LTR for liters, FTQ for cubic foot/feet\n\nNote: You can use [[minValue]] and [[maxValue]] to indicate ranges.
A cargo_volume should be one of the following types:
_has_cargo_volume
A predicate for the "cargo_volume" attribute.
date_vehicle_first_registered
dateVehicleFirstRegistered
The date of the first registration of the vehicle with the respective public authorities.
A date_vehicle_first_registered should be one of the following types:
_has_date_vehicle_first_registered
A predicate for the "date_vehicle_first_registered" attribute.
drive_wheel_configuration
driveWheelConfiguration
The drive wheel configuration, i.e. which roadwheels will receive torque from the vehicle's engine via the drivetrain.
A drive_wheel_configuration should be one of the following types:
InstanceOf['SemanticWeb::Schema::DriveWheelConfigurationValue']
_has_drive_wheel_configuration
A predicate for the "drive_wheel_configuration" attribute.
emissions_co2
emissionsCO2
The CO2 emissions in g/km. When used in combination with a QuantitativeValue, put "g/km" into the unitText property of that value, since there is no UN/CEFACT Common Code for "g/km".
A emissions_co2 should be one of the following types:
Num
_has_emissions_co2
A predicate for the "emissions_co2" attribute.
fuel_capacity
fuelCapacity
The capacity of the fuel tank or in the case of electric cars, the battery. If there are multiple components for storage, this should indicate the total of all storage of the same type.\n\nTypical unit code(s): LTR for liters, GLL of US gallons, GLI for UK / imperial gallons, AMH for ampere-hours (for electrical vehicles).
A fuel_capacity should be one of the following types:
_has_fuel_capacity
A predicate for the "fuel_capacity" attribute.
fuel_consumption
fuelConsumption
The amount of fuel consumed for traveling a particular distance or temporal duration with the given vehicle (e.g. liters per 100 km).\n\n* Note 1: There are unfortunately no standard unit codes for liters per 100 km. Use [[unitText]] to indicate the unit of measurement, e.g. L/100 km.\n* Note 2: There are two ways of indicating the fuel consumption, [[fuelConsumption]] (e.g. 8 liters per 100 km) and [[fuelEfficiency]] (e.g. 30 miles per gallon). They are reciprocal.\n* Note 3: Often, the absolute value is useful only when related to driving speed ("at 80 km/h") or usage pattern ("city traffic"). You can use [[valueReference]] to link the value for the fuel consumption to another value.
A fuel_consumption should be one of the following types:
_has_fuel_consumption
A predicate for the "fuel_consumption" attribute.
fuel_efficiency
fuelEfficiency
The distance traveled per unit of fuel used; most commonly miles per gallon (mpg) or kilometers per liter (km/L).\n\n* Note 1: There are unfortunately no standard unit codes for miles per gallon or kilometers per liter. Use [[unitText]] to indicate the unit of measurement, e.g. mpg or km/L.\n* Note 2: There are two ways of indicating the fuel consumption, [[fuelConsumption]] (e.g. 8 liters per 100 km) and [[fuelEfficiency]] (e.g. 30 miles per gallon). They are reciprocal.\n* Note 3: Often, the absolute value is useful only when related to driving speed ("at 80 km/h") or usage pattern ("city traffic"). You can use [[valueReference]] to link the value for the fuel economy to another value.
A fuel_efficiency should be one of the following types:
_has_fuel_efficiency
A predicate for the "fuel_efficiency" attribute.
fuel_type
fuelType
The type of fuel suitable for the engine or engines of the vehicle. If the vehicle has only one engine, this property can be attached directly to the vehicle.
A fuel_type should be one of the following types:
_has_fuel_type
A predicate for the "fuel_type" attribute.
known_vehicle_damages
knownVehicleDamages
A textual description of known damages, both repaired and unrepaired.
A known_vehicle_damages should be one of the following types:
_has_known_vehicle_damages
A predicate for the "known_vehicle_damages" attribute.
meets_emission_standard
meetsEmissionStandard
Indicates that the vehicle meets the respective emission standard.
A meets_emission_standard should be one of the following types:
_has_meets_emission_standard
A predicate for the "meets_emission_standard" attribute.
mileage_from_odometer
mileageFromOdometer
The total distance travelled by the particular vehicle since its initial production, as read from its odometer.\n\nTypical unit code(s): KMT for kilometers, SMI for statute miles
A mileage_from_odometer should be one of the following types:
_has_mileage_from_odometer
A predicate for the "mileage_from_odometer" attribute.
model_date
modelDate
The release date of a vehicle model (often used to differentiate versions of the same make and model).
A model_date should be one of the following types:
_has_model_date
A predicate for the "model_date" attribute.
number_of_airbags
numberOfAirbags
The number or type of airbags in the vehicle.
A number_of_airbags should be one of the following types:
_has_number_of_airbags
A predicate for the "number_of_airbags" attribute.
number_of_axles
numberOfAxles
The number of axles.\n\nTypical unit code(s): C62
A number_of_axles should be one of the following types:
_has_number_of_axles
A predicate for the "number_of_axles" attribute.
number_of_doors
numberOfDoors
The number of doors.\n\nTypical unit code(s): C62
A number_of_doors should be one of the following types:
_has_number_of_doors
A predicate for the "number_of_doors" attribute.
number_of_forward_gears
numberOfForwardGears
The total number of forward gears available for the transmission system of the vehicle.\n\nTypical unit code(s): C62
A number_of_forward_gears should be one of the following types:
_has_number_of_forward_gears
A predicate for the "number_of_forward_gears" attribute.
number_of_previous_owners
numberOfPreviousOwners
The number of owners of the vehicle, including the current one.\n\nTypical unit code(s): C62
A number_of_previous_owners should be one of the following types:
_has_number_of_previous_owners
A predicate for the "number_of_previous_owners" attribute.
payload
The permitted weight of passengers and cargo, EXCLUDING the weight of the empty vehicle.\n\nTypical unit code(s): KGM for kilogram, LBR for pound\n\n* Note 1: Many databases specify the permitted TOTAL weight instead, which is the sum of [[weight]] and [[payload]]\n* Note 2: You can indicate additional information in the [[name]] of the [[QuantitativeValue]] node.\n* Note 3: You may also link to a [[QualitativeValue]] node that provides additional information using [[valueReference]].\n* Note 4: Note that you can use [[minValue]] and [[maxValue]] to indicate ranges.
A payload should be one of the following types:
_has_payload
A predicate for the "payload" attribute.
production_date
productionDate
The date of production of the item, e.g. vehicle.
A production_date should be one of the following types:
_has_production_date
A predicate for the "production_date" attribute.
purchase_date
purchaseDate
The date the item e.g. vehicle was purchased by the current owner.
A purchase_date should be one of the following types:
_has_purchase_date
A predicate for the "purchase_date" attribute.
seating_capacity
seatingCapacity
The number of persons that can be seated (e.g. in a vehicle), both in terms of the physical space available, and in terms of limitations set by law.\n\nTypical unit code(s): C62 for persons
A seating_capacity should be one of the following types:
_has_seating_capacity
A predicate for the "seating_capacity" attribute.
speed
The speed range of the vehicle. If the vehicle is powered by an engine, the upper limit of the speed range (indicated by [[maxValue]] should be the maximum speed achievable under regular conditions.\n\nTypical unit code(s): KMH for km/h, HM for mile per hour (0.447 04 m/s), KNT for knot\n\n*Note 1: Use [[minValue]] and [[maxValue]] to indicate the range. Typically, the minimal value is zero.\n* Note 2: There are many different ways of measuring the speed range. You can link to information about how the given value has been determined using the [[valueReference]] property.
A speed should be one of the following types:
_has_speed
A predicate for the "speed" attribute.
steering_position
steeringPosition
The position of the steering wheel or similar device (mostly for cars).
A steering_position should be one of the following types:
InstanceOf['SemanticWeb::Schema::SteeringPositionValue']
_has_steering_position
A predicate for the "steering_position" attribute.
stupid_property
stupidProperty
This is a StupidProperty! - for testing only
A stupid_property should be one of the following types:
_has_stupid_property
A predicate for the "stupid_property" attribute.
tongue_weight
tongueWeight
The permitted vertical load (TWR) of a trailer attached to the vehicle. Also referred to as Tongue Load Rating (TLR) or Vertical Load Rating (VLR)\n\nTypical unit code(s): KGM for kilogram, LBR for pound\n\n* Note 1: You can indicate additional information in the [[name]] of the [[QuantitativeValue]] node.\n* Note 2: You may also link to a [[QualitativeValue]] node that provides additional information using [[valueReference]].\n* Note 3: Note that you can use [[minValue]] and [[maxValue]] to indicate ranges.
A tongue_weight should be one of the following types:
_has_tongue_weight
A predicate for the "tongue_weight" attribute.
trailer_weight
trailerWeight
The permitted weight of a trailer attached to the vehicle.\n\nTypical unit code(s): KGM for kilogram, LBR for pound\n* Note 1: You can indicate additional information in the [[name]] of the [[QuantitativeValue]] node.\n* Note 2: You may also link to a [[QualitativeValue]] node that provides additional information using [[valueReference]].\n* Note 3: Note that you can use [[minValue]] and [[maxValue]] to indicate ranges.
A trailer_weight should be one of the following types:
_has_trailer_weight
A predicate for the "trailer_weight" attribute.
vehicle_configuration
vehicleConfiguration
A short text indicating the configuration of the vehicle, e.g. '5dr hatchback ST 2.5 MT 225 hp' or 'limited edition'.
A vehicle_configuration should be one of the following types:
_has_vehicle_configuration
A predicate for the "vehicle_configuration" attribute.
vehicle_engine
vehicleEngine
Information about the engine or engines of the vehicle.
A vehicle_engine should be one of the following types:
InstanceOf['SemanticWeb::Schema::EngineSpecification']
_has_vehicle_engine
A predicate for the "vehicle_engine" attribute.
vehicle_identification_number
vehicleIdentificationNumber
The Vehicle Identification Number (VIN) is a unique serial number used by the automotive industry to identify individual motor vehicles.
A vehicle_identification_number should be one of the following types:
_has_vehicle_identification_number
A predicate for the "vehicle_identification_number" attribute.
vehicle_interior_color
vehicleInteriorColor
The color or color combination of the interior of the vehicle.
A vehicle_interior_color should be one of the following types:
_has_vehicle_interior_color
A predicate for the "vehicle_interior_color" attribute.
vehicle_interior_type
vehicleInteriorType
The type or material of the interior of the vehicle (e.g. synthetic fabric, leather, wood, etc.). While most interior types are characterized by the material used, an interior type can also be based on vehicle usage or target audience.
A vehicle_interior_type should be one of the following types:
_has_vehicle_interior_type
A predicate for the "vehicle_interior_type" attribute.
vehicle_model_date
vehicleModelDate
A vehicle_model_date should be one of the following types:
_has_vehicle_model_date
A predicate for the "vehicle_model_date" attribute.
vehicle_seating_capacity
vehicleSeatingCapacity
The number of passengers that can be seated in the vehicle, both in terms of the physical space available, and in terms of limitations set by law.\n\nTypical unit code(s): C62 for persons.
A vehicle_seating_capacity should be one of the following types:
_has_vehicle_seating_capacity
A predicate for the "vehicle_seating_capacity" attribute.
vehicle_special_usage
vehicleSpecialUsage
Indicates whether the vehicle has been used for special purposes, like commercial rental, driving school, or as a taxi. The legislation in many countries requires this information to be revealed when offering a car for sale.
A vehicle_special_usage should be one of the following types:
InstanceOf['SemanticWeb::Schema::CarUsageType']
_has_vehicle_special_usage
A predicate for the "vehicle_special_usage" attribute.
vehicle_transmission
vehicleTransmission
The type of component used for transmitting the power from a rotating power source to the wheels or other relevant component(s) ("gearbox" for cars).
A vehicle_transmission should be one of the following types:
_has_vehicle_transmission
A predicate for the "vehicle_transmission" attribute.
weight_total
weightTotal
The permitted total weight of the loaded vehicle, including passengers and cargo and the weight of the empty vehicle.\n\nTypical unit code(s): KGM for kilogram, LBR for pound\n\n* Note 1: You can indicate additional information in the [[name]] of the [[QuantitativeValue]] node.\n* Note 2: You may also link to a [[QualitativeValue]] node that provides additional information using [[valueReference]].\n* Note 3: Note that you can use [[minValue]] and [[maxValue]] to indicate ranges.
A weight_total should be one of the following types:
_has_weight_total
A predicate for the "weight_total" attribute.
wheelbase
The distance between the centers of the front and rear wheels.\n\nTypical unit code(s): CMT for centimeters, MTR for meters, INH for inches, FOT for foot/feet
A wheelbase should be one of the following types:
_has_wheelbase
A predicate for the "wheelbase" attribute.
SemanticWeb::Schema::Product
The development version is on github at https://github.com/robrwo/SemanticWeb-Schema and may be cloned from git://github.com/robrwo/SemanticWeb-Schema.git
Please report any bugs or feature requests on the bugtracker website https://github.com/robrwo/SemanticWeb-Schema/issues
When submitting a bug or request, please include a test-file or a patch to an existing test-file that illustrates the bug or desired feature.
Robert Rothenberg <rrwo@cpan.org>
This software is Copyright (c) 2018-2020 by Robert Rothenberg.
This is free software, licensed under:
The Artistic License 2.0 (GPL Compatible)
To install SemanticWeb::Schema, copy and paste the appropriate command in to your terminal.
cpanm
cpanm SemanticWeb::Schema
CPAN shell
perl -MCPAN -e shell install SemanticWeb::Schema
For more information on module installation, please visit the detailed CPAN module installation guide.