Abstract: According to one embodiment, an estimation system tentatively estimating the number of targets existing in a first area, based on radio information or image information excluding wireless propagation path information, which is related to the first area, receiving a radio signal transmitted from a radio in the first area and acquiring wireless propagation path information from the received signal, and performing a final number-of-target estimation by machine learning, using a result of the tentative estimation and the acquired wireless propagation path information as input information. The estimation system selects models to be used for the estimation of the machine learning, based on a result of the tentative estimation, when performing the final number-of-target estimation.

Abstract: According to one embodiment, an inspection system includes an estimation device and a detection device. The estimation device is configured to estimate an inspection range having a possibility that a predetermined object is present. The detection device is configured to generate detection information as to whether or not the predetermined object is present in the inspection range.

Abstract: According to one embodiment, an electronic apparatus includes receiver circuitry, transmitter circuitry, and processor circuitry. The receiver circuitry receives a first signal including first data via a first frequency band. The transmitter circuitry starts transmission of a second signal via at least a part of the first frequency band. The processor circuitry reduces interference caused by the second signal to receive the first signal. The processor circuitry increases a power of the second signal until reducing the interference becomes stable for the first time since the transmitter circuitry has started transmission of the second signal.

Abstract: According to one embodiment, an electronic apparatus includes receiver circuitry, transmitter circuitry, and processor circuitry. The receiver circuitry receives a first signal including first data via a first frequency band. The transmitter circuitry starts transmission of a second signal via at least a part of the first frequency band. The processor circuitry reduces interference caused by the second signal to receive the first signal. The processor circuitry increases a power of the second signal until reducing the interference becomes stable for the first time since the transmitter circuitry has started transmission of the second signal.

Abstract: According to one embodiment, a wireless communication device includes a first receiver; a second transmitter; a controller; and a pre-equalizer. The controller switches a reception frequency of the first receiver from a first frequency to a second frequency and a transmission frequency of the first transmitter from the second frequency to the first frequency, at a first timing. The pre-equalizer pre-equalizes a second signal, based on channel state information of a first signal received in the first receiver before the first timing. The first transmitter transmits the pre-equalized second signal, after the first timing.

Abstract: A wireless communication device according to an aspect of the present invention includes a transmitter, a receiver, and a signal processor. The transmitter transmits a first signal. The receiver receives a second signal which includes information indicating a transmission channel characteristic at the time of transmission of the first signal. The signal processor acquires the transmission channel characteristic at the time of transmission of the first signal from the second signal, estimates a reception channel characteristic at the time of reception of the second signal from the second signal, and estimates a transmission channel characteristic at a time later than a time associated with the acquired transmission channel characteristic on the basis of the acquired transmission channel characteristic and the estimated reception channel characteristic. The transmitter transmits a third signal on the basis of the estimated transmission channel characteristic.

Abstract: A wireless communication device according to an aspect of the present invention includes a transmitter, a receiver, and a signal processor. The transmitter transmits a first OFDM signal. The receiver receives a second OFDM signal. The signal processor detects a first timing that is a symbol timing for the first OFDM signal, detects a second timing that is a symbol timing for the second OFDM signal, determines a setup value for a symbol length of a new first OFDM signal on the basis of the first timing and the second timing, and generates the new first OFDM signal, the symbol length of which is adjusted to the setup value.

Abstract: According to one embodiment, an antenna arrangement determination device includes a candidate value generator, a calculator and an antenna arrangement determiner. The candidate value generator generates candidate values of a distance between a plurality of antennas, at an interval according to an installation height of an arbitrary one of the antennas, the distance between the antennas being adjustable. The calculator calculates communication quality in a case of setting the distance between the antennas at the candidate values. The antenna arrangement determiner determines a setting value of the distance between the antennas from the candidate values based on the communication quality.