Aspects of the disclosure relate to apparatus and methods for unattended occupant protection system (UOPS) safety systems for passenger vehicles. The UOPS safety system may include a UOPS module. The module may be integrated with a vehicle data bus of the passenger vehicle. The module may be in communication with a plurality of UOPS sensors. The module may launch an equalization mode in response to determining, via the UOPS sensors, the presence of an unattended occupant in the passenger vehicle with a high or rising ambient temperature. The equalization mode may stabilize the ambient temperature of the passenger vehicle.

A computer-implemented process for controlling a vehicle interior includes detecting a previously defined situation that relates to an undesirable environmental condition of the vehicle interior, and assessing both a risk level and an urgency level, based on a vehicle sensor input. The process also includes generating a vehicle command based upon the detected previously defined situation, the assessed risk level, and assessed urgency level, and executing the generated vehicle command to control at least one of an engine, a window, and a heating, ventilation and air conditioning (HVAC) unit to modify an environmental condition of the vehicle interior.

A method of controlling an air-conditioning system of a vehicle when the vehicle is in an ignition-off state during vehicle stopping or parking, includes receiving, in the ignition-off state, a set air-conditioning time for operating an air-conditioning system of the vehicle and a set air-conditioning target temperature; determining the required air-conditioning energy for operating the air-conditioning system of the vehicle on a basis of the set air-conditioning time and a difference between the set air-conditioning target temperature and an outside temperature of the vehicle; and increasing, by the controller, a set minimum charge amount to be secured in a battery of the vehicle to secure the required air-conditioning energy.

A motor vehicle includes a first time switch and a second time switch for controlling a preparation function for an operation of the motor vehicle. A set first time switch overrides a set second time switch. A method for controlling the preparation function includes determining an expected utilization time of the motor vehicle; determining that the first time switch is not set; outputting a specific utilization time and detecting a confirmation of the specific utilization time; and setting the first time switch to the specific utilization time.

A control apparatus includes a living body presence/absence determination unit configured to determine whether a predetermined living body is left in a vehicle cabin, a cabin camera configured to acquire image data containing a face of the predetermined living body left in the cabin, a facial expression analysis information acquisition unit configured to acquire information on facial expression of the predetermined living body based on the image data, a determination unit configured to determine whether a safety of a life of the predetermined living body is a predetermined reference or lower based on the information on the facial expression, and a control unit configured to, when the determination unit determines that the safety of the life of the predetermined living body is the predetermined reference or lower, activate a safety function for ensuring the safety of the life of the predetermined living body.

A vehicle-mounted temperature controller, including: a first heat circuit having a heater core used for heating and a first heat exchanger and configured so that a first heat medium is circulated through the first heat exchanger; a refrigeration circuit having the first heat exchanger condensing the refrigerant and an evaporator evaporating the refrigerant, and configured to operate a refrigeration cycle; and a heat medium flow path of an internal combustion engine configured to communicate with the first heat circuit so that the first heat medium circulates through the heat medium flow path. The first heat circuit is configured so that an outlet of the heat medium flow path is communicated with a core downstream side part positioned downstream of the heater core and upstream of the first heat exchanger and a core upstream side part positioned downstream of the first heat exchanger and upstream of the heater core.

Disclosed are climate systems for vehicles and methods for controlling the climate systems. In some implementations, a climate system includes: (1) a temperature sensor configured to measure a temperature within the compartment of the vehicle; (2) a first compressor powered by an engine of the vehicle to compress a refrigerant; (3) a second compressor driven by an electric motor to compress the refrigerant; and (4) a controller electrically coupled to the first compressor and the second compressor. The controller configured to: (1) calculate a thermal load of the compartment based on a difference between a desired temperature and a measured temperature; and, (2) based on the calculated load, selectively activate: (i) the engine, (ii) the first compressor, and/or (iii) the second compressor.

An air conditioning unit and a control method. The control method includes the following: S1. detecting the operation status of an air conditioner; S2. acquiring, by photosensitive sensors, the sunlight conditions of a recreational vehicle in parking; and S3. adjusting, by a control module, air outlet areas of the air conditioning unit for the recreational vehicle according to the acquired sunlight conditions and the sunlight exposure side of the recreational vehicle in parking. The control method can adjust the air outlet areas of the air conditioner by checking the operation status of the air conditioner and acquiring the sunlight conditions of the recreational vehicle in parking through the photosensitive sensors, thereby improving the user's sense of comfort.

A method of reducing a temperature inside a vehicle includes: when a current time is the same as a setting time of a vehicle after the vehicle is turned off, measuring, by a controller, a temperature outside the vehicle based on an output signal of an outside air temperature sensor of the vehicle; and discharging, by the controller, air inside the vehicle to the outside of the vehicle by receiving power from a battery of the vehicle and operating a blower motor, which drives a blower, based on an operation time of the blower motor according to the temperature outside the vehicle.

A method for controlling a heating, ventilation, and air conditioning (HVAC) system, may include: allowing, by a controller, only the indoor air to be directed into a housing when the HVAC system operates in a cooling mode and an engine is stopped by an Idle Stop and Go (ISG) system; allowing, by the controller, the indoor air directed into the housing to bypass a heater core; and maintaining, by the controller, a flow rate of the air directed into the housing at a minimum flow rate.