A proximity detector includes a sensor providing a proximity reading. The proximity detector is capable of comparing the reading to a rising threshold level and a falling threshold level, wherein the falling threshold level is less than the rising threshold level. The proximity detector filters the proximity reading through three low pass filters using a three different time constants to generate three filtered readings. While the proximity detector is in the no material present state, the proximity detector will enter the material present state when the second filtered reading is less than the difference between the first filtered reading and the falling threshold. While the proximity detector is in the material present state, the proximity detector enters the no material present state when the third filtered reading is greater than the sum of the first filtered reading and the rising threshold.

An unmanned aerial vehicle (UAV) includes a propulsion system, a camera system, a processor, and communications circuitry. The camera system includes an image channel with a band pass filter centered near a spectral line of a material associated with wildfires, and the camera system captures a spectral line emission image within a region of a potential wildfire. The processor uses the captured spectral line emission image to identify an emission event indicative of a wildfire. The communications circuitry transmits, to a dispatch system, data describing a location of an identified emission event. The dispatch system may dispatch firefighting resources to the location of the wildfire.

An unmanned aerial vehicle (UAV) includes a propulsion system, a camera system, a processor, and communications circuitry. The camera system includes an image channel with a band pass filter centered near a spectral line of a material associated with wildfires, and the camera system captures a spectral line emission image within a region of a potential wildfire. The processor uses the captured spectral line emission image to identify an emission event indicative of a wildfire. The communications circuitry transmits, to a dispatch system, data describing a location of an identified emission event. The dispatch system may dispatch firefighting resources to the location of the wildfire.

This device for processing partial discharge includes: a proportional signal generation unit which generates a proportional signal which is proportional to the strength of an input signal; a transfer function generation unit which is positioned between an output end of the proportional signal generation unit and an input end of an automatic gain control unit, converts the proportional signal input to the input end on the basis of a reference voltage and a transfer function, and outputs a transfer function signal; the automatic gain control unit which performs automatic gain control when the transfer function signal is input; a partial discharge detection unit which generates an automatic gain control feedback signal through at least one RC parallel circuit to feedback the automatic gain control feedback signal to a feedback end of the automatic gain control unit, when an automatic gain control signal of the automatic gain control unit is input; and a partial discharge determination unit which filters an automatic gain control output signal on the basis of the reference voltage to generate a partial discharge determination signal, when the automatic gain control output signal of the automatic gain control unit is input.

This device for processing partial discharge includes: a proportional signal generation unit which generates a proportional signal which is proportional to the strength of an input signal; a transfer function generation unit which is positioned between an output end of the proportional signal generation unit and an input end of an automatic gain control unit, converts the proportional signal input to the input end on the basis of a reference voltage and a transfer function, and outputs a transfer function signal; the automatic gain control unit which performs automatic gain control when the transfer function signal is input; a partial discharge detection unit which generates an automatic gain control feedback signal through at least one RC parallel circuit to feedback the automatic gain control feedback signal to a feedback end of the automatic gain control unit, when an automatic gain control signal of the automatic gain control unit is input; and a partial discharge determination unit which filters an automatic gain control output signal on the basis of the reference voltage to generate a partial discharge determination signal, when the automatic gain control output signal of the automatic gain control unit is input.

Systems, devices, software, and methods of the present invention enable frequency-based signal power analyses in software suitable for signal with either stationary and non-stationary spectrums. The methods that may be used throughout various systems including transmitters receivers, repeater, controllers, monitors, etc. and in software simulators to enable various signal power calculations and analyses, such as frequency spectrum analysis, throughout operating systems and that may be consistently applied in system design and operation simulations in a wide range of applications, such as interference and spectrum monitoring or clearance, object tracking, transmission channel and noise analyses, radiated power analysis, signal boundary interference, satellite downlink signal identification, pulsed radar monitoring, audio detection and identification, etc.

Systems, devices, software, and methods of the present invention enable frequency-based signal power analyses in software suitable for signal with either stationary and non-stationary spectrums. The methods that may be used throughout various systems including transmitters receivers, repeater, controllers, monitors, etc. and in software simulators to enable various signal power calculations and analyses, such as frequency spectrum analysis, throughout operating systems and that may be consistently applied in system design and operation simulations in a wide range of applications, such as interference and spectrum monitoring or clearance, object tracking, transmission channel and noise analyses, radiated power analysis, signal boundary interference, satellite downlink signal identification, pulsed radar monitoring, audio detection and identification, etc.

A system can include a housing that defines an interior space; a shaft disposed at least in part in the interior space of the housing where the shaft includes a longitudinal axis, a curved surface and an end surface; a submersible electric motor operatively coupled to the shaft where the submersible electric motor includes a cable connector; two proximity sensors where each of the proximity sensors includes a sensor aperture disposed in the interior space of the housing; and circuitry operatively coupled to the proximity sensors that determines position values of the shaft with respect to time based at least in part on output of the proximity sensors.

A reflected-wave processing apparatus according to one embodiment of the present invention may comprise: a reference signal generation unit for applying, to a cable, a first reference signal, the frequency of which increases over time, and a second reference signal, the frequency of which decreases over time; a reflected-signal acquisition unit for acquiring a first reflected signal and a second reflected signal which are reflected from the cable upon applying the first and second reference signals thereto; and a signal analysis unit for analyzing the first and second reflected signals.

A reflected-wave processing apparatus according to one embodiment of the present invention may comprise: a reference signal generation unit for applying, to a cable, a first reference signal, the frequency of which increases over time, and a second reference signal, the frequency of which decreases over time; a reflected-signal acquisition unit for acquiring a first reflected signal and a second reflected signal which are reflected from the cable upon applying the first and second reference signals thereto; and a signal analysis unit for analyzing the first and second reflected signals.