A stand-up vehicle includes a vehicle upper portion, a handrail, one or more biometric information sensors, and one or more processors. The vehicle upper portion has a riding surface on which a user stands. The handrail is provided at an upper portion of the vehicle and is gripped by a user. The one or more biometric information sensors are at least one of a sensor provided on a handrail and a weight sensor provided below a riding surface and having the riding surface as a weight detection surface, and detect biometric information of the user. The one or more processors perform notification processing for notifying a user of biometric information detected by the one or more biometric information sensors.

A vehicle includes a communication device configured to execute communication between the vehicle and a communication instrument different from an instrument mounted on the vehicle, and a control device configured to control the vehicle. The control device is configured to acquire a plurality of types of progress in a process of updating software of the control device. The control device is configured to transmit information on first progress among the plurality of types of progress to the communication instrument by using the communication device. The control device is configured to transmit information on second progress different from the first progress among the plurality of types of progress to the communication instrument by using the communication device in response to a transmission request from the communication instrument.

A shovel includes a lower traveling body; an upper turning body pivotably attached to the lower traveling body; an attachment attached to the upper turning body; and a processor that stores in a memory, or transmits to an external device, log information including information on the shovel and information on a peripheral environment of the shovel upon detecting that a degree of stability on a motion of the shovel becomes less than a predetermined reference level, or upon detecting an indication that the degree of stability on the motion of the shovel becomes lower than the predetermined reference level.

A display device for a vehicle includes a flexible display configured to be mounted in the vehicle. The display device is configured to extend and retract the flexible display to thereby change a size of a screen area of the flexible display. The display device may include a sensor configured to detect the size of the screen area, and a controller configured to, based on the size of the screen area, control a display state of information output through the flexible display.

In general, the subject matter described in this disclosure can be embodied in methods, systems, and program products for performing vehicle control. A computing system determines a difference between a recent rate of change and a historical rate of change of a rotating vehicle shaft of a vehicle during a vehicle race. The computing system determines that the difference between the recent rate of change of the rotating vehicle shaft and the historical rate of change of the rotating vehicle shaft satisfies a criteria for limiting vehicle power, wherein the computing system changes the criteria for limiting vehicle power during the vehicle race. The computing system sends a signal for receipt by a vehicle component of the vehicle, to cause the vehicle component to limit rotation of the rotating vehicle shaft.

A vehicle is provided that includes a vehicle body, a plurality of RF signal receivers located at a plurality of locations within the vehicle, a portable pet bowl configured to be transported in the vehicle body, the pet bowl including a container for holding content such as water, an RF signal transmitter located on the pet bowl for transmitting an RF signal, and a controller for processing the RF signal received by each of the plurality of RF signal receivers and determining a location of the pet bowl based on the received RF signals.

A setting unit is configured to, when the image content is to be displayed across the display screens of the plurality of display devices with the non-display area therebetween, set a display area including a duplicated area in which the image content is partially duplicated and to be displayed on the display screens of the plurality of display devices. A determination unit is configured to determine whether the image content includes a specific content represented by character/symbol information or image-recognized character/symbol information. A duplicated display processing unit is configured to, on determination of the determination unit that the image content includes the specific content, set a duplication width of the duplicated area based on a width of the specific content and display the image content of the duplicated area on the display screens of the plurality of display devices.

A trailed vehicle is provided comprising a plurality of operational components, at least one weight-sensing component, a body control module, a weight processing module, and an interface device comprising memory, a hardware processor coupled to the memory, a user interface, and a display. The user interface comprises user prompts for (i) associating particular operational components with the trailed vehicle and (ii) associating a particular weight-related parameter with the trailed vehicle. The weight processing module, the weight-sensing component, and the user interface are structured to generate an indication of vehicle weight at the user interface. The indication of vehicle weight is at least partially dependent upon the particular weight-related parameter associated with the trailed vehicle at the user interface. Additional embodiments are disclosed and claimed.

Described herein are systems and method for monitoring and controlling field operations including planting and harvesting operations. In one embodiment, a data processing system of a machine includes a data transfer and processing module that communicates bi-directionally with different types of controllers and sensors mounted on the machine or an implement attached to the machine. The data transfer and processing module is configured to execute instructions to receive signals from these controllers and sensors, process these signals, and generate data for monitoring and controlling field operations of the machine. At least one display device is coupled to the data transfer and processing module. The at least one display device displays the data for monitoring and controlling field operations of the machine or implement to a user or operator.

An in-vehicle display system is provided with first display unit, second display unit, vehicle information acquisition unit, and CPU. When a display operation for outputting at least a portion of first content to second display unit with the first content being output to first display unit is performed, CPU selects either of first display unit and second display unit with which to associate an authority to operate the output of at least one of first display unit and second display unit according to at least one signal from among a plurality of signals indicating a type of the first content, an attribute of first display unit, an attribute of second display unit, vehicle information, and a detail of the display operation.