A riding assistance system for a motorcycle comprising: a processing resource; a memory configured to store data usable by the processing resource; and at least one wide-angle forward-looking camera configured to be installed on the motorcycle in a manner enabling it to capture images of a scene including at least a right side and a left side in front of the motorcycle; wherein the processing resource is configured to: obtain a series of at least two images consecutively acquired by the camera; analyze a region of interest within at least a pair of consecutive images of the series to identify features having respective feature locations within the at least pair of consecutive images; determine vectors of movement of the features; and generate a warning notification upon a criterion associated with the vectors of movement being met.

The information display system includes an antenna, a display unit, a processing unit, and a housing. The antenna receives outside information from an outside of a vehicle. The display unit performs display to the outside of the vehicle. The processing unit is capable of executing outside-targeted display processing by which to cause the display unit to perform display associated with the outside information by controlling the display unit based on the outside information received by the antenna. The housing is installed on the vehicle after having the antenna, the display unit, and the processing unit assembled thereto and thus unitized. As a result, the information display system produces the effect of enabling beneficial information to be provided to the outside of the vehicle.

An apparatus and a method for controlling driving of a vehicle are provided. The apparatus includes a sensor configured to obtain driving environment information and vehicle driving information, and a controller configured to calculate a time to collision with a following vehicle based on the driving environment information when a lane change is necessary to be performed while flashing an emergency light, and to control flashing of the emergency light or a turn indicator based on the time to collision and the vehicle driving information when the lane change is performed.

An apparatus configured to prevent at least one vulnerable road user (VRU) from having an accident including a driver monitoring unit configured to utilize at least one sensor provided in a vehicle to detect a gaze area corresponding to a gaze direction of a driver of the vehicle, a VRU monitoring unit configured to calculate position information including current position and predicted motion information of the VRU existing in a peripheral area of the vehicle, the VRU is detected by using the at least one sensor, a detection unit configured to detect whether the driver is aware of the VRU and whether the VRU is aware of the driver based on a gaze area of the driver and the position information of the VRU, and a warning processing unit configured to output warning information on a dangerous situation to some or all of the driver and the VRU in response to a detection result of the detection unit.

Upper lamps each having an upward-convex semicircular shape, and lower lamps each having a downward-convex semicircular shape are placed on left and right sides in a lower part of a front face of a vehicle. In conjunction, the upper lamps and respective lower lamps constitute annular lamps. The upper lamps and respective lower lamps can be illuminated independently of each other.

A refuse vehicle comprising a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, one or more sensors coupled to the body and configured to provide data relating to the presence of an obstacle within an area near the refuse vehicle, a controller configured to receive the data from the one or more sensors, determine, using an obstacle detector and the data, the presence of an obstacle within the area and initiate a control action, wherein the control action includes at least one of controlling the movement of the refuse vehicle, controlling the movement of a lift assembly attached to the body assembly, or generating an alert.

Presented are intelligent electronic footwear and apparel with controller-automated features, methods for making/operating such footwear and apparel, and control systems for executing automated features of such footwear and apparel. A method for automating a collaborative operation between an intelligent electronic shoe (IES) and an intelligent transportation management (ITM) system includes receiving, via a detection tag attached to the IES shoe structure, a prompt signal from a transmitter-detector module communicatively connected to a traffic system controller of the ITM system. In reaction to the received prompt signal, the detection tag transmits a response signal to the transmitter-detector module. The traffic system controller uses the response signal to determine a location of the IES's user, and the current operating state of a traffic signal proximate the user's location. The traffic system controller transmits a command signal to the traffic signal to switch from the current operating state to a new operating state.

Presented are intelligent electronic footwear with controller automated features, methods for making/using such footwear, and control systems for executing automated features of intelligent electronic footwear. An intelligent electronic shoe (IES) includes an upper that attaches to a user's foot, and a sole structure that is attached to the upper and supports thereon the user's foot. An alert system, which is mounted to the sole structure and/or upper, generates predetermined outputs in response to electronic command signals. The IES system also includes a wireless communications device that wirelessly communicates with a remote computing node, and a footwear controller that communicates with the wireless communications device and alert system. The footwear controller receives location data indicative of the user's and remote computing node's locations, determines whether the user's location is within a predetermined location/proximity to the node's location and, if so, transmits command signals to the alert system to notify the user/vehicle.

Presented are intelligent electronic footwear and apparel with controller-automated features, methods for making/operating such footwear and apparel, and control systems for executing automated features of such footwear and apparel. A method for operating an intelligent electronic shoe (IES) includes receiving, e.g., via a controller through a wireless communications device from a GPS satellite service, location data of a user. The controller also receives, e.g., from a backend server-class computer or other remote computing node, location data for a target object or site, such as a virtual shoe hidden at a virtual spot. The controller retrieves or predicts path plan data including a derived route for traversing from the user's location to the target's location within a geographic area. The controller then transmits command signals to a navigation alert system mounted to the IES's shoe structure to output visual, audio, and/or tactile cues that guide the user along the derived route.

A non-transitory computer-readable medium stores instructions, which cause control circuitry integrated into an article of clothing to perform a method. The method includes processing indications related to an environment of the article of clothing and activating, based on the processing of the one or more indications, pulsing circuitry integrated into the article of clothing to pulse in a selected pattern of a plurality of patterns. The plurality of patterns include patterns to indicate: location information related to one or more individuals; movement information related to one or more individuals; information related to one or more hazards in a vicinity of the wearer of the article of clothing; information providing instructions to the wearer of the article of clothing; and information indicative of whether one or more individuals have been determined to be a friend or a foe of a wearer of the article of clothing.