A system for conditioning a vehicle battery interworking with remote air conditioning includes: a receiving unit that receives remote air conditioning execution setting and in-vehicle battery conditioning execution setting after a vehicle is parked; and a control unit that is configured to determine whether the remote air conditioning execution setting and the in-vehicle battery conditioning execution setting are received, and control to turn on or off vehicle indoor air conditioning and executes battery conditioning based on a determination result.

An electric auxiliary heating system for a natural gas powered vehicle having a natural gas engine is provided to maintain a cab temperature upon cessation of operation of the natural gas engine. The present system selectively circulates previously heated coolant to an existing cab heating circuit to maintain a desired cab temperature, wherein upon the coolant temperate cooling to a predetermined temperature the auxiliary heating system initiates heating with electric heaters in a reservoir to provide heating of the coolant. A controller provides for the initiation and termination of the auxiliary heating corresponding to selected predetermined thresholds as well as a sensed oil pressure generated by the natural gas engine.

An air conditioning control system includes processing circuitry. The processing circuitry includes an ambient temperature obtainment unit, a departure time estimation unit configured to estimate a departure time of a vehicle, an air conditioning condition calculator configured to calculate an operation period and an operation output that allow a passenger compartment temperature of the vehicle to reach a preset target temperature, an air conditioning start time determination unit configured to determine an activation time of an air conditioner, and an air conditioning controller. The air conditioning start time determination unit is configured to determine that the activation time is a time earlier than the departure time by the operation period.

A location information acquisition unit acquires vehicle location information indicating a location of a vehicle. A location determination unit determines whether or not the location indicated by the vehicle location information matches a registered location. A living body determination unit determines whether or not there is a living body present inside the vehicle under a state in which the vehicle is locked. A notification unit notifies, when it is determined that the location of the vehicle matches the registered location and that there is a living body present inside the vehicle, a user of the presence of the living body inside the vehicle.

A vehicle with an active climate control system. The vehicle having sensors that communicate with the active climate control system. The active climate control system controlling climate control elements upon evaluation of the sensor data. The active climate control fully customizable by the user of the vehicle.

A method for optimizing climate control in an autonomous vehicle. The method includes receiving a ride request for an autonomous vehicle from a customer. A desired temperature for an interior of the autonomous vehicle may be determined based on the ride request. The current temperature of the vehicle interior may then be adjusted such that the current temperature substantially matches the desired temperature when the autonomous vehicle reaches the customer. The temperature of the vehicle interior may be allowed to deviate from the desired temperature, within a pre-determined temperature deviation range, when the autonomous vehicle is unoccupied. A corresponding system and computer program product are also disclosed and claimed herein.

A heating system of a vehicle includes: a cooling line in which a radiator mounted with a cooling fan is provided; a heating line including a cooling water heater heating cooling water and an internal heater provided therein, and fluidly connected to the cooling line; a first branch line fluidly connecting a first portion of the cooling line and a first portion of the heating line, and including a first electrically powered water pump and an electric part; a second branch line fluidly connecting a second portion of the cooling line and a second portion of the heating line, and including a second electrically powered water pump; a first valve provided in the cooling line, the heating line, and a branch point of the first branch line; and a second valve provided in the cooling line, the heating line, and the branch point of the second branch line.

An adaptive air conditioning system, a method for the system, and a carrier equipped with the system are disclosed. The carrier includes at least one adaptive air conditioning system. The carrier has a body, which includes at least one cabin defining a compartment for accommodating transported objects, such as passengers or cargos. The adaptive air conditioning system includes data collecting apparatus, temperature control apparatus, and a microcontroller. The temperature control apparatus includes a liquid circulation unit, an air circulation unit, and a control switch. With the adaptive air conditioning system, the air and internal installation in the compartment can be controlled at a predetermined temperature more promptly, efficiently, uniformly, and flexibly, thus increasing comfort level for the passengers or meeting the temperature requirements for the cargos.

A control method of a heat pump system for a vehicle includes a first cooling apparatus having a first radiator, a first water pump, an electrical component, a valve, and a branch line, which are connected by a first coolant line and circulate a first coolant by the first water pump to the electrical component; a second cooling apparatus including a second radiator and a second water pump connected by a second coolant line; and an air conditioning apparatus including a compressor, a heater, an expansion valve, and a heat exchanger which are connected by a refrigerant line circulated with a refrigerant.

An air conditioning control apparatus and method, may include a photo sensor that detects a quantity of insolation incident to an interior of a vehicle, and a processor that sets a correction ratio according to window tinting information of the vehicle, corrects a photo sensor value detected by the photo sensor by use of the set correction ratio, and controls indoor air conditioning of the vehicle according to the corrected photo sensor value.