Patent application number | Description | Published |
20120100626 | Apparatus and Associated Methods - An apparatus comprising a processor and memory including computer program code. The memory and computer program code can be configured to, with the processor, cause the apparatus to illuminate one or more sensor elements with electromagnetic radiation emitted from corresponding regions of an electronic display. The one or more sensor elements can be configured to exhibit a specific electrical response to the illumination when a specific set of analytes are bound to the one or more sensor elements, determine the electrical response of the one or more sensor elements, and compare the determined electrical response with one or more predetermined electrical responses to determine a match. Each predetermined electrical response can be associated with the binding of a different set of analytes, wherein determination of a match allows the specific set of analytes bound to the one or more sensor elements to be identified. | 04-26-2012 |
20120133949 | Apparatus and Method - Embodiments of the invention relate to an apparatus and methods of using the apparatus wherein the apparatus includes a plurality of interferometers wherein the plurality of interferometers enable interference of an electromagnetic input signal, wherein the plurality of interferometers are configured to receive a plurality of sensor input signals from a plurality of sensors where the plurality of sensor input signals provide an indication of a plurality of sensed characteristics and the sensor input signals control the interference of the electromagnetic input signal by the plurality of interferometers, and wherein the plurality of interferometers are configured to provide a first output when the plurality of characteristics sensed by the sensors correspond to a first context and a second output when the plurality of characteristics sensed by the sensors correspond to a second context. | 05-31-2012 |
20120195430 | Quantum Key Distribution - An apparatus including: an input optical interface configured to receive a series of optical input signals each including photons; an encoder configured to encode a quantum key for distribution by encoding each of the series of received optical input signals with a measurable state; an attenuator configured to attenuate each of the encoded optical input signals to create a series of quantum optical signals; and an output optical interface configured to send the series of quantum optical signals to the remote apparatus via a quantum communication channel. | 08-02-2012 |
20130160527 | Multifunctional Apparatus Comprising a Superliquidphobic Surface - In accordance with an example embodiment of the present invention, apparatus including a position sensitive layer configured for position sensitivity; and a superliquidphobic layer configured for superliquidphobicity, the superliquidphobic layer positioned with a surface proximal to a surface of the position sensitive layer; wherein the position sensitive layer is configured to detect the position of a liquid droplet situated on a surface of the superliquidphobic layer. | 06-27-2013 |
20130194578 | Apparatus and Method for Receiving Sensor Input Signals - An apparatus, method and computer program wherein the apparatus includes at least one interferometer where the at least one interferometer is configured to cause interference of an electromagnetic input signal; wherein the at least one interferometer is configured to receive at least one sensor input signal from at least one sensor such that the sensor input signal controls the interference of the electromagnetic input signal by the at least one interferometer; wherein the at least one interferometer is configured to provide a plurality of outputs where each of the plurality of outputs is provided by the at least one interferometer responding to the at least one sensor input signal with a different sensitivity; and at least one detector configured to detect the plurality of outputs of the at least one interferometer and provide a digital output signal indicative of the at least one sensor input signal. | 08-01-2013 |
20140178063 | Apparatus and a Method - An apparatus including: addition circuitry configured to receive simultaneously a probe signal that has passed through a channel having a complex transmission and a reference signal and configured to produce at least: a plurality of weighted additions including an addition of the probe signal and the reference signal with different relative phase rotations between the probe signal and the reference signal for each weighted addition; and processing circuitry configured to use at least two of the plurality of weighted additions to determine a first quantitative parameter for the channel dependent upon the complex transmission for the channel. | 06-26-2014 |
20150039260 | METHOD, APPARATUS AND COMPUTER PROGRAM PRODUCT FOR ACTIVITY RECOGNITION - In accordance with an example embodiment a method, apparatus and computer program product are provided. The method comprises receiving, at an apparatus, a sampled data associated with an activity from one or more sensors wirelessly coupled to the apparatus. The sampled data is generated at the one or more sensors based on a compressive sampling of an activity data associated with the activity. The compressive sampling is performed based on a sampling information. The activity is classified based at least on the sampled data. An error associated with the classification of the activity is determined. The sampling information is updated or retained based on a comparison of the error with a threshold error. The updated sampling information is utilized for generating an updated sampled data. The updated sampled data facilitates in reclassification of the activity. | 02-05-2015 |
20150249537 | QUANTUM KEY DISTRIBUTION - Methods and apparatus for distribution of keys are disclosed. An optical signal for carrying encoded information in accordance with a quantum key distribution scheme is generated. The generated optical signal has a wavelength which is changed to another wavelength prior to transmission of the optical signal. The optical signal carrying the encoded information and having the changed wavelength is received, where after decoding of the information takes place by means of detector apparatus operating in the changed wavelength. | 09-03-2015 |