A data expansion system that provides continuum of discrete wireless small cell coverage areas for mobile terminals includes a set of roadway reflectors configured to provide wireless broadband data services to a mobile terminal. Each reflector includes processing circuitry configured to establish communications between the mobile terminal and a backhaul network. Each reflector includes a wireless transceiver configured to transmit and receive data. Each reflector includes a power source that converts solar energy into electricity. Each reflector includes a housing configured to contain the processing circuitry, the transceiver, and the power source. The housing has a raised reflective surface.

An object identification device according to the present invention includes: an acquisition unit that acquires, from a sensor that measures a position of an object and a speed of the object, sensor information measured by the sensor, and acquires size information from a device that transmits size information indicating a size and a position of the object; a designator adding unit that adds, to each piece of the sensor information, a sensor position designator indicating which part of the object is likely to be detected; and an information integration unit that determines, based on the sensor position designator, whether the object corresponding to the size information and the object corresponding to the sensor information are the same.

A blind spot detection system with speed detection function and device and method thereof are provided. The system is disposed on the rear portion of the vehicle, and includes a signal transceiving module and a central processing unit. The central processing unit includes a speed calculation module and an object detection module. The device includes a main body in which the signal transceiving module is disposed. A first signal is sent toward a detection area behind the vehicle for acquiring a second signal for blind spot detection. By calculation based on the second signal, a third signal is acquired for identifying the static and moving objects, and the relative speed between the vehicle and the static object is determined as the speed of the vehicle. Therefore, the blind spot detection system has a speed detection function.

An object is to enable measurement of position and velocity of a measurement object.

A velocity measurement device includes a transmitting means, a receiving means, and a signal processing means. The transmitting means transmits a transmission signal by a transmitting antenna toward a measurement object. The receiving means receives a reflected wave from the measurement object with multiple receiving antennas and generates a reception signal for each of the receiving antennas. The signal processing means obtains a phase plane of the reflected wave with respect to an antenna plane of the multiple receiving antennas from a phase difference between the reception signals to specify an arrival direction of the reflected wave, obtains a distance to the measurement object from a propagation delay time of the reflected wave, and calculates a phase fluctuation of the reflected wave to calculate a velocity of the measurement object from the phase fluctuation.

A monitoring system includes a sensor system for capturing at a capture instant, information relating to moving objects moving in a roadway infrastructure portion, and a control station comprising a display for displaying at a display instant subsequent to the capture instant, a view of the roadway infrastructure portion on which is visible an image of each moving object. The monitoring system also includes at least one computer for deriving captured information of a measured position and speed of each moving object at the capture instant, and another computer for deducing the measured position and speed at an estimated position of each moving object at the display instant. The display is configured to display in the view of the road infrastructure portion a virtual image of each moving object at its estimated position.

A monitoring system includes a sensor system for capturing at a capture instant, information relating to moving objects moving in a roadway infrastructure portion, and a control station comprising a display for displaying at a display instant subsequent to the capture instant, a view of the roadway infrastructure portion on which is visible an image of each moving object. The monitoring system also includes at least one computer for deriving captured information of a measured position and speed of each moving object at the capture instant, and another computer for deducing the measured position and speed at an estimated position of each moving object at the display instant. The display is configured to display in the view of the road infrastructure portion a virtual image of each moving object at its estimated position.

A method for estimating the height of a reflector of a vehicle, the method including a reading step, in which at least one reflection signal from the reflector of the vehicle is read at one time and the at least one reflection signal representing at least one information item in respect of a relative speed of the vehicle. Further, the method includes a specifying step, in which an estimated value for the speed of the vehicle is specified. Finally, the method includes an ascertaining step, in which an estimated value for the height of the reflector is ascertained using the relative speed of the vehicle and the estimated value for the speed of the vehicle.

A method for estimating the height of a reflector of a vehicle, the method including a reading step, in which at least one reflection signal from the reflector of the vehicle is read at one time and the at least one reflection signal representing at least one information item in respect of a relative speed of the vehicle. Further, the method includes a specifying step, in which an estimated value for the speed of the vehicle is specified. Finally, the method includes an ascertaining step, in which an estimated value for the height of the reflector is ascertained using the relative speed of the vehicle and the estimated value for the speed of the vehicle.

Sweeping radar devices and methods for detecting objects in the vicinity of a vehicle are provided. The sweeping radar device includes a transmitting device, receiving device, and a processor. The method involves transmitting an electromagnetic wave, receiving the wave, converting the wave to an electromagnetic signal, processing the signal to generate an output criterion, interpreting the output criteria and triggering at least one response by a vehicle, which may be an affirmative response, such as a siren or flashing lights, or may be a passive response.

Sweeping radar devices and methods for detecting objects in the vicinity of a vehicle are provided. The sweeping radar device includes a transmitting device, receiving device, and a processor. The method involves transmitting an electromagnetic wave, receiving the wave, converting the wave to an electromagnetic signal, processing the signal to generate an output criterion, interpreting the output criteria and triggering at least one response by a vehicle, which may be an affirmative response, such as a siren or flashing lights, or may be a passive response.