Methods, systems, and a computer readable medium are provided for a vehicle containing multiple blade processors for performing vehicle and/or infotainment tasks, functions, and operations. The blade processors can be included in a crate having a first communication zone defining a trusted network within the vehicle to connect with trusted computational devices and/or modules provided or certified by the vehicle manufacturer but not untrusted computational devices and/or modules provided by vehicle occupants, a second communication zone defining an untrusted network to connect with the untrusted computational devices and/or modules, and a third communication zone providing power and data transmission to the blade processors. A master blade processor can assign a component and/or module requiring a blade processor for execution to a selected blade processor.

An alarm system can remind or alert an adult about the presence of a child in a vehicle. A child detector, such as a weight sensor or weight-activated circuit, can detect whether a child is occupying the child safety seat. The child detector may be integrated with or coupled to a child safety seat. The child detector can be used in coordination with a vehicle alarm system to remind or alert a driver that a child is occupying the child safety seat when a key is not in the ignition.

Aspects of the disclosure relate to determining and responding to an internal state of a self-driving vehicle. For instance, an image of an interior of the vehicle captured by a camera mounted in the vehicle is received. The image is processed in order to identify one or more visible markers at predetermined locations within the vehicle. The internal state of the vehicle is determined based on the identified one or more visible markers. A responsive action is identified action using the determined internal state, and the vehicle is controlled in order to perform the responsive action.

A method, system, and process are described to decrease muscle fatigue and improve circulation of an individual resting on a support device, such as an adjustable chair or bed. The body pose and heat distribution of the individual are determined and used to estimate muscle fatigue and circulation. The estimated muscle fatigue and circulation are then used to determine settings for the support device or the temperature of the environment.

A system comprising: a heater located within a steering wheel and a heater located within a vehicle seat; wherein the steering wheel is a first plate and the vehicle seat is a second plate and a shift in a signal is monitored from the first plate, the second plate, or both so that a presence and absence of an occupant is detected, and wherein the heater in the steering wheel and the heater in the vehicle seat are a sensor.

An instrument panel interaction system for an automotive vehicle is provided that includes an alerting device configured to produce an alert. A controller is controllably coupled to the alerting device, the controller being operable to activate the alerting device to produce the alert. An inquiring device is communicatively coupled to the controller. The inquiring device is configured to ask the driver whether a child is present. The controller is configured to activate the alerting device to produce the alert when a predetermined condition is met and an affirmative response has been received that a child is present. A method of reminding a driver of the presence of a child within a motor vehicle is also provided.

Systems and methods for human scanning for interior preference setup are disclosed. An example disclosed vehicle includes a target lamp on a side view mirror of the vehicle. The example vehicle also includes a scanning module. Additionally, the example vehicle includes an active scanning system configured to instruct the target lamp to project a position indicator a known distance from the vehicle, determine a joint structure based on an image of a person standing at the position indicator received from the scanning module, and adjust interior preference settings based on the detected joint structure.

Systems and methods for human scanning for interior preference setup are disclosed. An example disclosed vehicle includes a target lamp on a side view mirror of the vehicle. The example vehicle also includes a scanning module. Additionally, the example vehicle includes an active scanning system configured to instruct the target lamp to project a position indicator a known distance from the vehicle, determine a joint structure based on an image of a person standing at the position indicator received from the scanning module, and adjust interior preference settings based on the detected joint structure.

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.

Embodiments include a vehicle comprising a user interface, a first sensor coupled to a child seat for detecting a child seat belt status; a gear selector for selecting a vehicle gear, and a processor communicatively coupled to the first sensor and the gear selector, and configured to cause the user interface to present a first notification if a first alarm condition is detected based on the child seat belt status and a selected gear. Embodiments also include a method of providing child seat monitoring in a vehicle, the method comprising receiving a gear position from a vehicle gear selector, receiving a child seat belt status from a first sensor coupled to a vehicle child seat, and presenting a first notification using a vehicle user interface if the gear position is a non-park position and the child seat belt status is unbuckled.