A system for providing proactive service to a passenger of an autonomous vehicle during an autonomous-driving ride. The system includes a hardware-based processing unit, and a non-transitory computer-readable storage component including an input-interface module that, when executed by the hardware-based processing unit, obtains input data indicating a condition related to the autonomous-driving ride. The storage component also includes an actions module that, when executed by the hardware-based processing unit determines, based on the condition indicated by the input data, a proposed action; and proactively initiates dialogue with the passenger by way of a vehicle-passenger interface, the dialogue including proposing that the vehicle take the proposed action. Example actions include executing a conversation function, an educating function, an HVAC function, an autonomous-driving function, and an infotainment function. The technology in various embodiments includes any of the processes performed by the systems or devices described.

A control method and an electronic device thereof are provided. A first electronic device can include a communication unit and a control unit configured to perform providing device identification information to a second electronic device based on a beacon received from the second electronic device through the communication unit, and conducting at least one function corresponding to the signal received from the second electronic device.

The present disclosure describes a vehicle implementing one or more processing modules. These modules are configured to connect and interface with the various buses in the vehicle, where the various buses are connected with the various components of the vehicle to facilitate information transfer among the vehicle components. Each processing module is further modularized with the ability to add and replace other functional modules now or in the future. These functional modules can themselves act as distinct vehicle components. Each processing modules may hand-off processing to other modules depending on its health, processing load, or by third-party control. Thus, the plurality of processing modules helps to implement a middleware point of control to the vehicle with redundancy in processing and safety and security awareness in their applications.

A center device includes a database storing a plurality of information items regarding a vehicle. The center device identifies a vehicle state by integrating the plurality of information items stored in the database. The center device generates visualization information to be displayed by a display device from an identification result of the vehicle state. The center device transmits the visualization information to the display device.

Methods and systems for a heads-up configurable vehicle dash display are provided. Specifically, a configurable dash may comprise one or more displays that are capable of receiving input from a user. At least one of these displays may be configured to present a plurality of custom applications that, when manipulated by at least one user, are adapted to control and/or monitor functions associated with a vehicle and/or associated peripheral devices. It is anticipated that the function and appearance of the plurality of custom applications may be altered via user and/or processor input.

A system for an improved control of data stream management in a vehicle, said system comprising: a media controller; a processor; a storage element coupled to the processor; encoded instructions; wherein the system is configured to: select at least a first input/output system to receive a packet payload by the media controller; determine an applicable rule set governing a destination input/output system and payload type; determine a current input/output system configuration; determine whether the payload can be provided to each of the destination input/output systems; detect a stimulus indicating that caching of media is to be performed; selectively cache the payload from the destination input/output system for future playback for an operator at the first destination input/output system or at another operator-specific input/output system by the media controller; and wherein the selective caching for future playback on operator-specific input/output system results in improved vehicular data stream management.