Abstract: Systems and methods for detecting or predicting a seismic event. The methods comprise, by a system: receiving at least one communication signal using a carrier recovery component with a fixed location remote from a source of the at least one communication signal; determining at least one of (i) phase deviations of the at least one communication signal over time and (ii) differential propagation delays over two paths which the at least one communication signal traveled; performing operations to detect patterns in at least one of the phase deviations and differential propagation delays that indicate an occurrence of seismic activity with level(s) of confidence; and using the level(s) of confidence to detect or predict the seismic event.

Abstract: Systems and methods for detecting or predicting a seismic event. The methods comprise, by a system: receiving at least one communication signal using a carrier recovery component with a fixed location remote from a source of the at least one communication signal; determining at least one of (i) phase deviations of the at least one communication signal over time and (ii) differential propagation delays over two paths which the at least one communication signal traveled; performing operations to detect patterns in at least one of the phase deviations and differential propagation delays that indicate an occurrence of seismic activity with level(s) of confidence; and using the level(s) of confidence to detect or predict the seismic event.

Abstract: Systems and methods for detecting or predicting a seismic event. The methods comprise, by a system: receiving at least one communication signal using a carrier recovery component with a fixed location remote from a source of the at least one communication signal; determining at least one of (i) phase deviations of the at least one communication signal over time and (ii) differential propagation delays over two paths which the at least one communication signal traveled; performing operations to detect patterns in at least one of the phase deviations and differential propagation delays that indicate an occurrence of seismic activity with level(s) of confidence; and using the level(s) of confidence to detect or predict the seismic event.

Abstract: A quantum communications system may include a transmitter node, a receiver node, and a quantum communications channel coupling the transmitter node and receiver node. The receiver node may be configured to arrange a received bit stream of optical pulses from the transmitter node into time bins, convert the optical pulses in the time bins into corresponding optical pulses in frequency bins, and detect respective optical pulse values from each of the frequency bins.

Abstract: A quantum communications system may include a transmitter node, a receiver node, and a quantum communications channel coupling the transmitter node and receiver node. The receiver node may be configured to arrange a received bit stream of optical pulses from the transmitter node into time bins, convert the optical pulses in the time bins into corresponding optical pulses in frequency bins, and detect respective optical pulse values from each of the frequency bins.

Abstract: A smartphone endoscope system includes a smartphone with first and second imaging sensors, and an imaging optics attachment. The imaging optics attachment includes a first and second imaging apparatus, the first imaging apparatus including a first light source, a beam splitter, an objective lens, and a fiber optic imaging bundle, wherein the fiber optic imaging bundle delivers excitation light to a target which emits a fluorescence emission and a reflectance emission both collected by the fiber optic imaging bundle and transmitted to the first imaging sensor. The second imaging apparatus includes a second light source, a DRS source fiber delivering broadband light to the target which produces a diffuse reflectance emission, a DRS detection fiber, a collimator, a slit, and a transmission grating wherein the transmission grating diffracts diffuse reflectance emission and creates diffracted light which is transmitted to a second imaging sensor.

Abstract: A smartphone endoscope system includes a smartphone with first and second imaging sensors, and an imaging optics attachment. The imaging optics attachment includes a first and second imaging apparatus, the first imaging apparatus including a first light source, a beam splitter, an objective lens, and a fiber optic imaging bundle, wherein the fiber optic imaging bundle delivers excitation light to a target which emits a fluorescence emission and a reflectance emission both collected by the fiber optic imaging bundle and transmitted to the first imaging sensor. The second imaging apparatus includes a second light source, a DRS source fiber delivering broadband light to the target which produces a diffuse reflectance emission, a DRS detection fiber, a collimator, a slit, and a transmission grating wherein the transmission grating diffracts diffuse reflectance emission and creates diffracted light which is transmitted to a second imaging sensor.

Abstract: A wireless communications system may include a plurality of wireless communications devices and a wireless device locator. More particularly, the wireless device locator may include at least one antenna and a transceiver connected thereto, and a controller for cooperating with the transceiver for transmitting a plurality of location finding signals to a target wireless communications device from among the plurality thereof. The target device may transmit a respective reply signal for each of the location finding signals. Additionally, the controller may also cooperate with the transceiver for receiving the reply signals, and it may determine a propagation delay associated with the transmission of each location finding signal and the respective reply signal therefor based upon a known device latency of the target device. As such, the controller may estimate a range to the target device based upon a plurality of determined propagation delays.

Abstract: A wireless communications system may include a plurality of wireless communications devices and a wireless device locator. More particularly, the wireless device locator may include at least one antenna and a transceiver connected thereto, and a controller for cooperating with the transceiver for transmitting a plurality of location finding signals to a target wireless communications device from among the plurality thereof. The target device may transmit a respective reply signal for each of the location finding signals. Additionally, the controller may also cooperate with the transceiver for receiving the reply signals, and it may determine a propagation delay associated with the transmission of each location finding signal and the respective reply signal therefor based upon a known device latency of the target device. As such, the controller may estimate a range to the target device based upon a plurality of determined propagation delays.

Abstract: A wireless communications system may include a plurality of wireless communications devices and a wireless device locator. More particularly, the wireless device locator may include at least one antenna and a transceiver connected thereto, and a controller for cooperating with the transceiver for transmitting a plurality of location finding signals to a target wireless communications device from among the plurality thereof. The target device may transmit a respective reply signal for each of the location finding signals. Additionally, the controller may also cooperate with the transceiver for receiving the reply signals, and it may determine a propagation delay associated with the transmission of each location finding signal and the respective reply signal therefor based upon a known device latency of the target device. As such, the controller may estimate a range to the target device based upon a plurality of determined propagation delays.

Abstract: A wireless communications system may include a plurality of wireless communications devices and a wireless device locator. More particularly, the wireless device locator may include at least one antenna and a transceiver connected thereto, and a controller for cooperating with the transceiver for transmitting a plurality of location finding signals to a target wireless communications device from among the plurality thereof. The target device may transmit a respective reply signal for each of the location finding signals. Additionally, the controller may also cooperate with the transceiver for receiving the reply signals, and it may determine a propagation delay associated with the transmission of each location finding signal and the respective reply signal therefor based upon a known device latency of the target device. As such, the controller may estimate a range to the target device based upon a plurality of determined propagation delays.