An apparatus comprising an interface, a memory and a processor. The interface may be configured to receive sensor data samples during operation of a vehicle. The memory may be configured to store the sensor data samples over a number of points in time. The processor may be configured to analyze the sensor data samples stored in the memory to detect a pattern. The processor may be configured to manage an application of brakes of the vehicle in response to the pattern.

In a motor vehicle, an accelerator operation amount is changed among a first region, a second region, and a third region. The motor vehicle is configured to perform a first control that applies a braking force to the vehicle when the accelerator operation amount is at least in the first region or in the second region or to perform a second control that applies a smaller braking force to the vehicle than the braking force applied by the first control when the accelerator operation amount is in the first region or in the second region. The motor vehicle is also configured to continue execution of the first control without changing over control to the second control, when an execution request for the second control is given during execution of the first control in the second region of the accelerator operation amount.

The present disclosure provides an apparatus for recommending a function of a vehicle. The apparatus includes a communication circuit configured to communicate with an external device, an output device configured to provide information to a user of the vehicle, a memory, and a processor configured to be electrically connected with the communication circuit, the output device, and the memory. The processor is configured to obtain a message associated with the user of the vehicle from an external device using the communication circuit, extract event information associated with movement of the user from the message associated with the user, and when a specified condition corresponding to the event information is met, output a notification of recommending execution of a task associated with the event information using the output device.

A server includes: a communication unit that communicates with a mobile terminal (terminal) of a user; and a processor (control unit) that controls the communication unit. When the communication unit has not received deterioration information (battery information) on a battery from the mobile terminal for greater than or equal to a cycle (predetermined period), the processor performs control for obtaining the deterioration information through the mobile terminal.

There are described herein methods and systems for operating an electric motor of a watercraft. In one method, the electric motor of the watercraft is controlled based on commands received from an accelerator of the watercraft, a sensor signal is received from at least one sensor of the watercraft while the electric motor is in operation, the sensor signal indicative of an undesirable condition of a water intake of the watercraft, and a change is effected to the controlling of the electric motor in response to receiving the sensor signal.

A control device for controlling a vehicle provided with a power supply function for a user includes a control unit that causes a light of the vehicle to blink under a certain condition when a power outage is detected.

A work vehicle is configured to perform an activity in a work area. The work vehicle includes a chassis, a plurality of ground engaging members coupled to the chassis for movement of the chassis in the work area, a generator configured to generate energy from performance of the activity of the work vehicle in the work area, an energy storage device connected to the generator to store energy generated by the generator and configured to be charged to an initial charge, a work member, and a controller configured to establish an initial charge setting corresponding to the initial charge of the energy storage device based on at least one anticipated activity input of the work vehicle.

Methods, apparatus, systems and articles of manufacture to provide an improved mobility vehicle are disclosed. An example vehicle includes a sensor positioned with respect to a seat to detect pressure by a user with respect to the sensor and to generate a signal corresponding to the pressure; and a processor to convert the signal into a control command for a powertrain to move the vehicle.

Road vehicle provided with an electric drive and having: at least one pair of drive wheels; at least one electric machine; a mechanical transmission that connects the electric machine to the drive wheels; a passenger compartment; at least one seat, which is housed in the passenger compartment and is provided with at least one mechanical exciter that is designed to generate mechanical vibrations at variable frequencies and intensities; and a control unit, which is designed to drive the mechanical exciter using a driving signal that derives from the noise generated by an internal combustion thermal engine and based on the speed of rotation of the electric machine and/or on the speed of rotation of the drive wheels and/or on the torque generated/absorbed by the electric machine.

A boost system for an electric vehicle having an electric motor, a battery pack and a control unit (CU) is provided. The CU controls an operating torque of the electric motor. The boost system has a manual boost controller and a boost mode manager. In response to the manual boost controller being activated, the boost mode manager is configured to determine a remaining boost energy. The remaining boost energy is a difference between a predetermined maximum boost energy and a total boost energy used. The predetermined maximum boost energy corresponds to a percentage of energy of the battery pack. In response to a boost enable condition, the boost mode manager is configured to send a command to the CU to add a boost torque to the operating torque. The boost enable condition includes the remaining boost energy being greater than zero.