A system and method is disclosed for measuring time of flight to an object. A transmitter transmits an electromagnetic signal and provides a reference signal corresponding to the electromagnetic signal. A receiver receives the electromagnetic signal and provides a response signal corresponding to the received electromagnetic signal. A detection circuit is configured to determine a time of flight between the transmitter and the receiver based upon the reference signal and the response signal.

Provided are a radar communication system capable of achieving road-to-vehicle communication or vehicle-to-vehicle communication with a simpler configuration, an in-vehicle radar device, and a transmission device. The radar communication system includes the in-vehicle radar device and the transmission device that is placed outside a vehicle. The in-vehicle radar device includes a millimeter wave radar sensor configured to transmit a transmission wave to outside of the vehicle and receive a reflected wave of the transmission wave, to thereby detect an object; a determination section configured to determine whether or not a physical relation between the object detected by the millimeter wave radar sensor and the vehicle is within an acceptable range; and an information extracting section configured to extract, when the physical relation is out of the acceptable range, information associated with a frequency characteristic of the reflected wave. The transmission device includes a reception section configured to receive the transmission wave; a modulated signal generating section configured to modulate, in association with information set in advance, a frequency characteristic of the transmission wave received by the reception section, to thereby generate a modulated signal; and a transmission section configured to transmit the modulated signal as part of the reflected wave.

Ranging devices and light reception methods wherein the modulation frequencies of a light source and a ToF sensor are synchronized are disclosed. In one example, a ranging device includes a reception section that generates, by executing a synchronization process on a transmission signal transmitted from a separate device through wireless communication, a signal synchronized with a synchronization clock signal of the separate device, a reference clock generation section that generates, on the basis of the synchronization clock signal, a reference clock signal to be used as a reference for light emission from the light source, and a ToF sensor that receives, on the basis of the reference clock signal, reflection light resulting from irradiation light applied from the light source and reflected by an object.

In an embodiment, a millimeter-wave system includes a first circuit having M channels, one or more antennas coupled to the first circuit, and a controller that includes a resource scheduler module. The controller is configured to operate the millimeter-wave system as a radar device and as a communication device based on an output of the resource scheduler module.

Data is communicated from an implanted section to an external location. The implanted section includes a transducer such as a piezoelectric element with an ultrasound reflecting surface that moves in response to an applied driving signal. A sensor generates an output signal that depends on a sensed parameter, and a control circuit drives the transducer based on the sensor's output. The transducer's response to the driving signal is repeatable such that the value of the output signal can be determined by measuring the variations in the velocity of the surface using externally applied Doppler ultrasound, and computing the value of the sensor's output from the measured variations in velocity.

The apparatus (e.g., a first radar device) may be configured to receive a second radar waveform from a second radar device; determine a transmission timing difference between a transmission time of a first radar waveform and a transmission time of the second radar waveform, where the first radar waveform may be transmitted by the first radar device; and generate a radar point cloud associated with one or more targets based on the received second radar waveform and the determined transmission timing difference. A second radar device may be configured to transmit a second radar waveform; receive, from one or more targets, one or more reflections of the second radar waveform; and transmit, to a first radar device, cooperative radar sensing information regarding the received one or more reflections.

A base station may allocate wireless communication resources to configure a synthetic wireless communication signal for use as a radar signal. The synthetic wireless communication signal may be configured according to a wireless communication protocol of a wireless communication network that is associated with the base station. The base station may transmit, from an antenna and toward an area associated with the base station, the synthetic wireless communication signal. The base station may detect a reflected signal that is associated with the synthetic wireless communication signal. The base station may process the reflected signal to generate radar data; and perform an action associated with the radar data and the area.

A software defined platform is provided for subsea acoustic applications that utilizes a broadband phased array transducer and a configurable, multi-function software defined transducer that is configurable on the fly to enable various subsea acoustic systems to be achieved in a single unit thus reducing the space required on the vessel and the cost of having such multiple functions.

Some embodiments of the invention relate to a handheld measuring aid for use in a system—having a station for position and orientation determination of the handheld measuring aid—for surveying an object surface. the handheld measuring aid has in this case on a body, visual markings which are arranged in a defined spatial relationship, forming a pattern, on the body in a marking region, a measuring probe, which is arranged on an orifice of the body in a defined spatial relationship in relation to the pattern, for the object surface, an operating element, an electronic circuit for generating a measurement triggering signal—occurring as a function of an actuation of the operating element—and wireless communication means for transmitting the measurement triggering signal to the station.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for sending a flight plan for execution by a drone, where the flight plan is adapted to a flight controller of the drone. Receiving flight data from the drone while the drone is executing the flight plan. Determining a modification to the flight plan based on the flight data received from the drone. Sending the modification to the flight plan to the drone while the drone is executing the flight plan, such that the drone executes the flight plan as modified by the modification.