A signaling device is intended to be worn by a driver or rider of a land vehicle or intended to be mounted on such a vehicle, the vehicle preferably being a two-wheeled vehicle. The signaling device includes an accelerometer, an assembly of electrochemical batteries, a first light source, a wireless communicator intended to emit a warning signal, and a control unit. The control unit is intended to activate: the light source when the accelerometer measures a deceleration greater than or equal to a first predetermined deceleration threshold; and the communicator when the accelerometer measures a deceleration greater than or equal to a second predetermined deceleration threshold.

The invention relates to a signalling device (1) designed to be removably placed on the back of a user of a locomotive engine, the device (1) including electronic means for signal processing and for controlling the switching-on and/or switching-off of the at least one secondary signal light (3d, 3g) synchronously with the switching-on and/or switching-off of a primary signal light present in the machine. Electronic means are built into an accelerometer and means for interpreting measurements of the accelerometer allow the detection of a lateral variation, to the right or left, of the direction of movement, the means for controlling the at least one secondary signal light (3d, 3g) comprising means for verifying that the at least one secondary signal light (3d, 3g) indicates the lateral right or left direction followed by the user and the machine.

An article of clothing includes user-protection circuitry, integrated into the article of clothing. The user-protection circuitry includes condition-detection circuitry, which, in operation, generates one or more indications related to an environment of the article of clothing. The user-protection circuitry also includes broadcast circuitry including at least one pulsing device, and control circuitry. The control circuitry, in operation, activates the broadcast circuitry based on the one or more indications related to the environment of the article of clothing generated by the condition-detection circuitry.

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 system and a method of alerting a driver of a vehicle of the presence of a passenger in the vehicle are disclosed. The system comprises a control unit in the vehicle to detect the status of an ignition switch in the vehicle. The system further comprises a control device coupled to the control unit. The system further comprises a plurality of wearable devices, each wearable devices is worn by a passenger in the vehicle. The control unit detects turning OFF of the ignition switch and sends a signal to the control device. The control device sends a transmission signal to the wearable devices to determine the presence of any of the wearable devices. The control device generates an alert to the driver when any of the wearable devices respond to the transmission signal indicating presence of the passenger inside the vehicle when the ignition switch is turned OFF.

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.

The indication system of the present invention includes an indication device and an activation device. The activation device includes a cover and an activator movable with the cover relatively. Wherein a first sensor is assembled inside the cover to generate a first signal by sensing a horizontal displacement of the activator, a second sensor is assembled inside the cover to generate a second signal by sensing a vertical displacement of the activator, and then a transmission unit transmits the first signal and the second signal to the indication device; the activator is constructed with a combination portion and a control portion separately on two opposite sides. When the control portion is driven by a user to move horizontally or vertically, the combination portion can drive an operation member to be displaced synchronously. The indicator light of the bike is activated synchronously in conjunction with the indication system of present invention.

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 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.