A method of providing safety in a level 3 autonomous vehicle by mounting a plurality of cameras in a vehicular cabin to detect edges; translating the edges into motions of a human or a biological entity; and monitoring safety conditions for the human or biological entity.

The present application relates to an air conditioning method and system, a vehicle, and a storage medium. The method comprises: determining an ambient temperature inside the vehicle; determining an operating state of a temperature regulation unit and a minimum air volume of an odor regulation unit in the operating state; receiving a setting of an intensity level of the odor regulation unit, wherein the temperature regulation unit shares an air passage with the odor regulation unit; and determining an air volume of the odor regulation unit according to the ambient temperature, the operating state, the minimum air volume, and the intensity level. According to this method, the release degree of the fragrance or the like inside the vehicle may be precisely controlled.

A method that may include receiving driving information and environmental metadata indicative of information sensed by the vehicle; detecting multiple driving events encountered during the driving over the path; determining driving events; for each driving event, determining a comfort based autonomous driving pattern information; for each driving event, determining an driving event identifier; and storing in at least one data structure a driving event identifier for each one of the multiple types of driving events, and a comfort based autonomous driving pattern information.

The present disclosure discloses an air conditioner control method and system, a non-transitory storage medium and a processor. The control system includes an environmental temperature sensor configured to detect a first temperature value of an external environment of a target object; a heat exchanger temperature sensor configured to detect a second temperature value of an outside heat exchanger of an air conditioner system; a speed monitoring system configured to detect a driving speed of the target object; and a control system, connected to the environmental temperature sensor, the heat exchanger temperature sensor and the speed monitoring system, and configured to determine according to the first temperature value, the second temperature value and the driving speed, whether the air conditioner system enters a defrosting mode in a case that the air conditioner system operates in a heating mode.

An air-conditioning apparatus for a vehicle and a control method of the same are provided which may inhibit a closing degree of a door from being insufficient even when the door is closed while a blower fan is actuated. An air-conditioning apparatus for a vehicle includes an inside-outside air switching damper including a damper switching actuator, a blower fan, a control unit, and door opening-and-closing sensors. In a case where the door becomes an open state and a case where the blower fan is actuated and the inside-outside air switching damper is in an outside air introduction mode, the control unit issues a command to the damper switching actuator to switch the inside-outside air switching damper to an inside air circulation mode.

A method for controlling a temperature of a refrigerator provided in a vehicle is provided. A method for controlling a temperature of a refrigerator provided in a vehicle according to an embodiment of the present disclosure detects a foodstuff requiring a low temperature storage included in image information of an article using an artificial neutral network model, and when the foodstuff requiring the low temperature storage is detected, can prevent deterioration of the foodstuff while the article is transported through the vehicle by controlling a temperature of the refrigerator based on storage temperature information of the foodstuff requiring the low temperature storage. A temperature control device of a refrigerator installed in a vehicle of the present disclosure is associated with an artificial intelligence module, an unmmanned aerial vehicle (UAV) robot, an augmented reality (AR) device, a virtual reality (VR) device, and a device related to a 5G service.

An automatic air outlet system for supplying air into a vehicle interior of a vehicle, wherein the automatic air outlet system includes a plurality of air outlets that are motorized and may be automatically adjusted and that respectively include a plurality of setting parameters, a storage unit for storing a plurality of ventilation situations, wherein in the case of each of the plurality of ventilation situations a specific configuration of the setting parameters of each air outlet of the plurality of air outlets is specified, the configuration being adjusted to the corresponding ventilation situation, a specification unit for the purpose of specifying a ventilation situation to the plurality of ventilation situations that are stored in the storage unit, and a control unit for the purpose of controlling the plurality of air outlets such that the air outlets fulfil the ventilation situation that is specified by the specification unit.

The invention relates to a method for confirming an execution of a command for reducing electrical power consumption of at least one passenger transport vehicle the method comprising the following steps: sending (S1) a consumption reduction command signal to the regulation system of each vehicle, the command signal being modulated by a reference signal; obtaining (S2) a signal of the power consumed by the air conditioning means of the set of vehicles in response to the reference signal; and confirming (S3) the execution of the consumption reduction command according to characteristics of said signal of power consumed by the air conditioning means of the set of vehicles.

In an exemplary embodiment, a vehicle system is provided that includes a sensor, a memory, and a processor. The sensor is configured to at least facilitate obtaining vehicle data pertaining to one or more conditions of the vehicle. The memory is configured to at least facilitate storing historical data pertaining to a user's operation of the vehicle. The processor is coupled to the sensor and the memory, and is configured to at least facilitate: (i) generating one or more predictions of one or more needs for the user, using the vehicle data and the historical data as inputs for a machine learning model; and (ii) providing instructions to implement a vehicle action that accomplishes the one or more needs for the user based on the generated predictions via the machine learning model.

A vehicular thermal management system includes: an indoor-air-conditioner disposed in a first vehicle body having a passenger space and including a compressor, a first condenser, an evaporator, a blower, and a refrigerant line; and a component-air-conditioner disposed in a second vehicle body combinable with the first vehicle body and including an electrical component line for cooling an electrical component of the vehicle and a first battery line for cooling a high-voltage battery including a chiller which extends toward the first vehicle body to be disposed behind the evaporator when the first vehicle body is combined with the second vehicle body.