An indicator system for outdoor power equipment, such as a riding lawn mower, may include an illuminating element around the perimeter of a display screen. The illuminating element may be configured to illuminate in a predetermined manner based on a predefined condition occurring in order to alert the operator to the display screen. The display screen may be configured to display more detail about the predefined condition while the illuminating element is illuminated.

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 builds on integrating existing technology with new devices, methods, and systems to provide a complete vehicle ecosystem.

A vehicle computing system includes a processor connected to a transceiver and programmed to prompt an occupant via a user interface to pair a device detected by the transceiver. The processor is further programmed to receive input at the user interface to associate the device with a pre-approval setting for enabling a vehicle start request when the device having the pre-approval setting and a vehicle key are detected by the processor.

A method of providing one or more selectable vehicle tasks to one or more vehicles, comprising the steps of: receiving from each of a plurality of vehicle users at least one user-defined task to be carried out by the user's vehicle, wherein the user-defined task comprises at least one vehicle action and a conditional statement, wherein the conditional statement comprises of one or more vehicle conditions; grouping the received user-defined tasks into equivalency classes, wherein different user-defined tasks that have logically equivalent conditional statements and equivalent vehicle actions are grouped into the same equivalency class; analyzing the equivalency classes; selecting at least one vehicle task based on the analysis in step (c); and sending the selected vehicle task(s) to one or more vehicles for presentation to a user at the vehicle(s).

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.

Contextual presentation of notifications within a transportation apparatus is disclosed. Driving information related to the driving of the transportation apparatus may be received. In some examples, the driving information includes speed, traffic, road condition, and/or environment condition information. Based on such driving information, a determination may be made with respect to presentation of a notification within the apparatus. For example, the notification may be determined not to be presented based on the driving information. In some examples, the determination may also include determining a format in which the notification will be presented within the transportation apparatus. In some examples, the format may include font size, color, type, blinking frequency, location on a dashboard screen and/or any other format information for presenting the notification within the transportation apparatus.

A mobile device is described herein that provides a user interface experience to a user who is operating the mobile device within a vehicle. The mobile device provides the user interface experience using mode functionality. The mode functionality operates by receiving inference-input information from one or more input sources. At least one input source corresponds to at least one movement-sensing device, provided by the mobile device, that determines movement of the mobile device. The mode functionality then infers a state of the vehicle based on the inference-input information and presents a user interface experience that is appropriate for the vehicle state. In one scenario, the mode functionality can also infer that the vehicle is in a distress condition. In response, the mode functionality can solicit assistance for the user.

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 recognize the drivers and/or passengers within the automobile. Based on the recognition, the vehicle may change a configuration of the automobile to match predetermined preferences for the driver and/or passenger. The configurations may also include the recognition of a unique set of gestures for the person. Further, the configuration can also include the tracking of health data related to the person.

The disclosure relates generally to an in-vehicle feedback system, and more particularly, to an in-vehicle device with a display or graphical interface that collects driving data and provides feedback based on the driving data. The system may comprise an in-vehicle device that includes a graphical user interface and a processor and a data collection device wirelessly connected to the in-vehicle device. The in-vehicle device may be configured to receive vehicle telematics data from the data collection device and the processor may process the telematics data in real time and cause the telematics data to be displayed on the graphical user interface. The graphical user interface may include a speed display and an acceleration display.

A vehicle and a control method therefor are disclosed. The vehicle control method includes receiving integrated control information including one or more integrated control items with operation conditions set for one or more controllable items of the vehicle, providing an integrated control menu based on the integrated control information, and, when one of the integrated control items is selected from the integrated control menu, controlling each of the controllable items comprised in the selected integrated control item in accordance with the operation conditions corresponding thereto.