Abstract: The present disclosure generally pertains to devices and methods for determining propellant mass based on average measurements irrespective of the fluid orientation in a fuel tank. The device is useful in detecting fuel levels in tanks where the fuel is in motion, for instance in aircraft (i.e., undergoing varying acceleration maneuvers) or spacecraft (i.e., a microgravity environment). The devices and methods can also be used for determining the liquid in a surface tension screen liquid acquisition device (LAD), and particularly, the incipient breakdown as gas bubbles enter or are formed inside the LAD as the screen dries or heat transfer induces vaporization. The same basic electrode configuration can be used to stir the liquid to reduce thermal stratification and condense vapor bubbles.

Abstract: A radiation detection system may include a mobile device having a flash memory. The device may monitor various characteristics of the flash memory to determine when damage to the flash memory has occurred from radiation exposure. The device may associate damage to the flash memory with a radiation dose, and determine a level of radiation to which the memory, and thus the device, has been exposed. The device also may determine a length of time and locations where the radiation exposure has occurred. If the device determines that the level of radiation exposure exceeds a threshold associated with a safe level of radiation exposure for a human user, the device may generate an alert to the user.

Abstract: The present disclosure generally pertains to signal analysis systems and methods for measuring and characterizing signal attributes, such as noise. A signal analysis system comprises an optical receiver that receives an optical signal and converts the received signal into an electrical signal. A programmable frequency divider divides the frequency of the incoming electrical signal at different division ratios, and a signal analyzer analyzes the resulting signal. In this regard, by increasing the division ratio of the frequency divider and measuring the power spectral density with the signal analyzer at different division ratios, a suitable signal for determining different parameters (e.g., modulation frequency and modulation index) may be found.

Abstract: Systems and methods are provided to combine multiple stimulation modalities to significantly increase the effectiveness of non-invasive stimulation. Multiple sensor and stimulation devices and modalities can be combined into a single, compact unit that minimizes the need for additional sensors or stimulation devices. The system features several subunits, referred to as sensory and stimulation devices (SSD), that are integrated into a headphone setup. The system is controlled by a centralized controller that communicates with all of the SSDs and with an external computer system that delivers learning material synchronized with the delivery of stimulations and the collection of user responses based on physiological signals.

Abstract: A micro-fluidic reactor may comprise a photosensitive glass substrate with a plurality of features produced by etching. The features may include micro-channels, micro-lenses, and slots for receiving optical fibers. During operation of the micro-fluidic reactor, the optical fibers may transmit optical signals for measuring characteristics of fluid reagents and reactions taking place. The micro-lenses may focus optical signals from the optical fibers to create an approximately collimated optical path for the optical signals, reducing optical spread and enhancing fiber-to-fiber optical power coupling.

Abstract: Systems and methods are provided to implement an anti-censorship framework that includes moving target defense systems and methods. The framework can be implemented at a web server hosting content that is intended to be accessed by one or more users. The web server can utilize dynamically changing IP addresses to avoid filtering and blocking (and also from being attacked) by censors. Users can be assigned to random groups and provided with a dynamic IP address of the web server that is unique for that group. After some time interval (called a shuffling interval), the web server can generate new sets of dynamic IP addresses and re-randomize the user groups and update the users with new IP addresses for the web server.

Abstract: A weather forecasting system has a data processing system that receives weather data from one or more sources and processes such data in conjunction with a weather forecasting algorithm in order to forecast weather for one or more geographic regions. In this regard, the weather data is input into a machine learning algorithm, which applies learned weights and relationships to the inputs in order to calculate at least one score indicating a probability that precipitation or other weather event will occur in the future within a certain time period (e.g., within the next 1 hour or some other unit of time) in one or more geographic regions. For each such geographic region, the weather forecasting logic may also predict the extent to which rain or other precipitation, lightning, or other weather event will occur during the time period.

Abstract: Systems and methods are provided to implement moving target defense techniques for transportation systems. The moving target defense techniques can randomly change the IP addresses of the nodes associated with both the vehicles and the corresponding control centers. The nodes for the vehicles and the control centers can be “mobile” nodes that use a “care-of” IP address for communications. The care-of address used by the nodes can be updated through a binding update process. During the binding update process, the one node sends the binding update notice (with a new care-of address) to the care-of address of the other node while maintaining its prior care-of address. The node that receives the binding update notice can send a binding acknowledgement back to the node that sent the binding update. Once the binding acknowledgement is received, the prior care-of address can be removed by the node that sent the binding update.

Abstract: A radiation detection system may include a mobile device having a flash memory. The device may monitor various characteristics of the flash memory to determine when damage to the flash memory has occurred from radiation exposure. The device may associate damage to the flash memory with a radiation dose, and determine a level of radiation to which the memory, and thus the device, has been exposed. The device also may determine a length of time and locations where the radiation exposure has occurred. If the device determines that the level of radiation exposure exceeds a threshold associated with a safe level of radiation exposure for a human user, the device may generate an alert to the user.

Abstract: The present disclosure generally pertains to methods for the harvesting of biomass, in particular algae, from dilute aqueous suspension. In one embodiment, the method comprises the steps of: adjusting the pH of the dilute aqueous suspension to cause disruption of the algal cell walls and exposure of the hydrophobic tails of the algal lipid bilayer; adding at least one organic solvent to the dilute aqueous suspension; and mixing the dilute aqueous suspension. The method may also include the steps of: waiting for formation of an organic layer from the dilute aqueous suspension; and recovering the organic layer. The organic layer rises to the top of the dilute aqueous suspension, allowing for mechanical separation or decanting of the organic layer.

Abstract: A smart beverage container may be used to monitor user hydration. The container has at least one sensor for sensing an amount of liquid within the container. The liquid is monitored over time to determine an amount of liquid consumed by a user, and feedback is provided to the user indicating whether the user's liquid consumption is within a desired range according to a predefined profile of consumption. Such feedback may include information for indicating when the user is to consume additional liquid in order to remain in compliance with a desired liquid consumption regimen, as well as reminders to take additional liquid or warn the user if too much liquid had been consumed.

Abstract: An unmanned aerial vehicle docking system can include a docking arm and a docking station. The docking arm can be mounted on the UAV and include a rod with an interface element positioned on top of the rod. The interface element can have charging contacts that are attached to wires that extend down to a charging circuit on the UAV. The docking station can be located separate from the docking arm and have a guidance cone to direct the docking arm to a capture mechanism. Once the interface element is in the capture mechanism, a charging dome is then lowered down onto the top of the interface element to form a circuit between a power source at the docking station and the UAV's battery. Upon completion of the charging process, the charging dome is raised and the capture mechanism releases the interface element of the UAV.

Abstract: The present disclosure generally pertains to lightweight adaptive metal cooled mirrors and methods of producing the same. The metal mirror surface is integrated with and supported by metal channels which are physically incorporated into the mirror surface through an additive manufacturing process. These channels are nominally conformal with the desired mirror surface shape. A liquid or gaseous coolant may be directed through some or all of the channels to cool the mirror surface. The mirrors are produced through an additive manufacturing process which allows for the creation of a unitary optical mirror containing finely spaced channels.

Abstract: A reflection optical filter has an ultra-thin semi-transparent layer and a thin layer of semiconductor (or dielectric) layer deposited onto a metal film surface at a certain thickness corresponding to a wavelength of light to be filtered from incoming light. Critical coupling of light to the optical cavity formed by the semi-transparent layer and semiconductor (or dielectric) layer on metal surface results in near perfect absorption of the light at one wavelength and strong absorption in the wavelength region near the peak absorption wavelength. Incoming lights of other wavelengths are mostly reflected by the device so the spectral content of incident light is changed. By controlling the thickness of the semiconductor (or dielectric) layer and/or other factors, such as the extent to which the semiconductor layer is annealed or changing the type of metal beneath the semiconductor (or dielectric) layer, the peak absorption wavelength of the light absorbed in the device can be precisely controlled.

Abstract: A sensor of a brightness limiting system of a vehicle may sense light from light sources around the vehicle and provide a light measurement signal. The light measurement signal may include information about brightness levels and positions of light sources relative to a window of the vehicle. A brightness controller may monitor the light source measurement signal and perform comparisons of brightness levels from the light measurement signal with brightness thresholds. The brightness controller may determine that a brightness level of a light source exceeds a brightness threshold and may provide a brightness control signal to a brightness control layer positioned adjacent to the window of the vehicle. The brightness control layer may receive the brightness control signal and limit the brightness level of light based on the brightness threshold at a brightness control area of the brightness control layer.

Abstract: A specimen testing system has holders that hold a specimen for testing. The holders brace the specimen so that a load may be applied. A load applicator applies a load to the specimen at a location that is between the holders bracing the specimen. A user may adjust the load applicator until it applies the desired load to the specimen. If desired, a user may apply rotation to a specimen while it is experiencing a load by using a specimen rotation system. The user may continue to adjust the load applied to the specimen or continue to rotate the specimen during loading until the specimen fails.

Abstract: The present invention relates to a method for the continuous production of low thermal conductivity endless filament yarns with a compact, homogeneous structural morphology. The presently disclosed methods utilize safe and recyclable ionic liquids to produce carbon fiber precursors from cellulose. The fibers are produced by the carbonization of cellulose carbon fiber precursors. The precursor fiber filaments have an increased tear resistance with simultaneously sufficient elongation, a round or crenulated cross-section, and homogeneous fiber morphology. The filament yarns exhibit performance characteristics similar to those produced from traditional viscose rayon. The resulting fibers are especially suited for aerospace applications in composite materials used at the limits of high temperatures, for instance in structures found in rocket nozzles or atmospheric reentry heat shields on spacecraft.

Abstract: A flow of air induces vibration of a tip of an airflow sensor. A cantilever coupled to the tip vibrates as the tip is displaced, and a piezoelectric element associated with the cantilever generates an electrical signal in response to mechanical stress or strain induced by vibration of the cantilever. A control element that is in communication with the piezoelectric element of the cantilever receives the electrical signal and derives at least one parameter indicative of the flow of air sensed by the sensor. The control element communicates or otherwise transmits an output signal that is indicative of the parameter to an output device to display sensor data to a user as desired.

Abstract: An optical filter has a layer of silicon film deposited onto a metallic substrate surface at a silicon film thickness corresponding to a wavelength of light to be filtered from incoming light. The critical coupling of light to the optical cavity formed by the silicon film on metal surface results in a strong and near perfect absorption of the light at a resonance wavelength and strong absorption in the wavelength region near the peak absorption wavelength. Other wavelengths of the incoming wave are reflected by the device so the spectral content of light is changed. By controlling the thickness of the silicon film and/or other factors, such as the extent to which the silicon film is annealed or the type of metal beneath the silicon film, the wavelength of the light absorbed by the silicon film can be precisely controlled.

Abstract: A computer system may track the user's eye gaze on a display device over time using an eye tracker. When the computer system detects a risk associated with a graphical object and determines that the user's gaze is close to the graphical object, it may display a warning message indicating the risk. The computer system may display the warning message at a location that corresponds to the graphical object associated with the risk. Furthermore, when the computer system detects a risk and determines that the user's gaze is not at the graphical object that needs the user's immediate attention, it may display a warning message near the user's current gaze to notify the user. If desired, the warning message may be hidden based on the user's gaze, such as when the user moves his gaze away from the detected risk.