A key fob associated with a select one of a plurality of driver profiles stored in a vehicle memory is provided. The key fob comprises a memory for storing a profile indication for identifying the driver profile associated with the key fob, and an output device for presenting the profile indication. Another embodiment provides a wireless system comprising a vehicle storing driver profiles in a memory, and a key fob associated with a select profile and comprising an output device for presenting a profile indication assigned to that profile. Another embodiment includes a method of providing a profile indication on a key fob associated with one of the driver profiles stored in the vehicle. The method comprises transmitting an identifier to the vehicle, receiving a profile indication associated with the identifier from the vehicle, and presenting the profile indication on an output device of the key fob.

A method of controlling an operation standby time of a driver convenience system installed in a vehicle using a control unit including a memory and a processor includes: setting a plurality of learning positions; generating a plurality of test cases based on a day of a week and a time associated with each of the plurality of set learning positions; receiving a plurality of sensor signals and a plurality of switch signals associated with the driver convenience system; generating a learned neural network algorithm by using a neural network algorithm to learn an operation standby time of each of the plurality of generated test cases based on the plurality of sensor signals and the plurality of switch signals associated with the driver convenience system; and determining an operation standby time of the driver convenience system at a current learning position using the learned neural network algorithm.

Methods and systems for a complete vehicle ecosystem are provided. Specifically, systems that when taken alone, or together, provide an individual or group of individuals with an intuitive and comfortable vehicular environment. The present disclosure includes a system to create, modify, and maintain profiles associated with users. The user profiles are generated based on selectively collecting data associated with the users. Although each user profile may include settings, preferences, habits, and content associated with an individual user and/or vehicle, some user profiles may represent multiple users. These user profiles can change a configuration of a vehicle to match settings for a user, such as a driver and/or passenger. The configurations may also include the recognition of a unique set of gestures for a user. Further, the user profiles can be transferred from vehicle-to-vehicle and/or user-to-user.

The vehicle control system/method for adapting a control function based on a user profile may comprise: a gesture recognition module; a user profile module; a function control module; a processor; a non-transitory storage element coupled to the processor; encoded instructions stored in the non-transitory storage element, wherein the encoded instructions when implemented by the processor, configure the system to: identify a user; retrieve a user profile for the identified user; receive at a gesture recognition module, an input indicating a gesture from the user; identify a control function request corresponding to the gesture input; send a verification of the control function request; and receive at a function control module characteristics parsed from the user profile that effect the control function request by the user profile module to adapt a control function command for an adapted control function output by the function control module.

The vehicle control system/method for adapting a control function based on a user profile may comprise: a gesture recognition module; a user profile module; a function control module; a processor; a non-transitory storage element coupled to the processor; encoded instructions stored in the non-transitory storage element, wherein the encoded instructions when implemented by the processor, configure the system to: identify a user; retrieve a user profile for the identified user; receive at a gesture recognition module, an input indicating a gesture from the user; identify a control function request corresponding to the gesture input; send a verification of the control function request; and receive at a function control module characteristics parsed from the user profile that effect the control function request by the user profile module to adapt a control function command for an adapted control function output by the function control module.

A vehicle is provided that determines a need for communication with a third party vendor, retrieves a user rule from the memory (the user rule defines to which third party vendor the vehicle can send a first communication to address the need and defines a geographic location of the third party vendor relative to a current location of the vehicle, a monetary amount the vehicle can pay to a third party vendor for a product or service to address the need, and a time limit for the third party vendor to provide the product or service to address the need), based on the user rule, selects a third party vendor from among multiple possible third party vendors, and when determined by the user rule, automatically sends the first communication to the selected third party vendor to address the need. The first communication is associated with an order for the product or service, and the processor provides an authorization to the selected third party vendor to complete the order. The vehicle uses different antennas positioned at different physical locations on an exterior of the vehicle to provide the first communication and authorization to the selected third party vendor.

The vehicle control system/method for adapting a control function based on a user profile may comprise: a gesture recognition module; a user profile module; a function control module; a processor; a non-transitory storage element coupled to the processor; encoded instructions stored in the non-transitory storage element, wherein the encoded instructions when implemented by the processor, configure the system to: identify a user; retrieve a user profile for the identified user; receive at a gesture recognition module, an input indicating a gesture from the user; identify a control function request corresponding to the gesture input; send a verification of the control function request; and receive at a function control module characteristics parsed from the user profile that effect the control function request by the user profile module to adapt a control function command for an adapted control function output by the function control module.

Methods and systems for a vehicle system that include determining whether a vehicle action is necessary and providing a notification to predetermined users. Sensors provide signals to a sensing control system to generate the notification.

Methods and systems for a traffic control system provide arrangements and processes for managing automated vehicles. The traffic control system can register vehicles and then control the operation of the vehicles through a section of roadway. The automated control includes the communication of directions and other messages that ensure the proper function of the vehicle while under the guidance of the traffic control system.

A user identification method and apparatus using recognition of a grip pattern of a lever-type door are provided. The user identification method using recognition of a grip pattern of a lever-type door includes activating a sensing module disposed within a lever of a vehicle door when a smart-key is sensed. A grip pattern is then sensed using the sensing module and a user profile that corresponds to the grip pattern is identified. A user-customization module is activated in response to the identified user profile.