Abstract: The present invention provides a method for performing optical image detection using a camera module comprising a Digital MicroMirror Device, a first point Photo Detector, a second point Photo Detector, a first lens and a second lens.

Abstract: The invention provides a monolithic integrated mesh device for atomization or pumping of a fluid or liquid comprising a plurality of apertures and a piezoelectric material. The piezoelectric material is bonded to the mesh device at an atomic scale. In one embodiment the monolithic micro-fabricated device of the invention includes piezoelectric material that eliminates the need for expensive assembly process and improves reliability. This also has advantage of requiring lower operating voltage and less complicated circuitry.

Abstract: A method for synthesizing mesoporous silica microparticles comprising the steps of: preparing a sol from an ammonium catalyzed hydrolysis and condensation reaction of a pre-sol solution comprising a silica precursor and a structure directing agent dissolved in a mixed solvent system comprising an alcohol and water to produce mesoporous particles of silica with an average diameter of up to about 50 ?m; hydrothermally treating the particles to increase the pore size; treating the particles to remove residual structure directing agent; and further increasing the pore size using controlled dissolution.

Abstract: A photonic integrated circuit (PIC) assembly that includes a PIC, and a light source mounted on a first carrier substrate, and optically coupled and aligned with the PIC. The first carrier substrate includes a wrap-around metal, that enables the first carrier substrate to be bonded electrically with the PIC using solder bumps, and wherein the wrap-around metal enables the first carrier substrate to be electrically controlled by an external device for facilitating alignment and optical coupling process with the PIC.

Abstract: Aspects of the subject disclosure may include, for example, a method in which a processing system identifies a plurality of performance indicators comprising device performance indicators for a plurality of communication devices on a cellular network and network performance indicators for the cellular network. The method also includes obtaining historical data regarding the plurality of performance indicators for each of a series of time points during a past time period; the historical data for each of the plurality of performance indicators form an array of values for that performance indicator. The method further includes generating from each array a set of inputs to an algorithm for predicting a throughput of the cellular network during a future time period; the set of inputs comprises quantiles of the array, and the algorithm comprises a machine learning algorithm. Other embodiments are disclosed.

Abstract: The invention provides an optical system and method for outputting a modulated signal comprising a single multimode interference (MMI) device having at least two inputs configured with a fixed phase and an output, wherein the output modulated signal is controlled by modulating the input power of at 5 least one of the inputs. The invention only requires a single MMI device to operate as the relative phase between the two inputs are fixed relative each other and one of the inputs can be used to modulate the output by modulating the power at a single input. In further embodiments, the invention shows how correct phases can be set by a single MMI device. Thus, no more than two 10 MMIs are required in conjunction with phase or amplitude modulating elements to fully generate a BPSK or QPSK signal.

Abstract: Aspects of the subject disclosure may include, for example, a method in which a processing system identifies a plurality of performance indicators comprising device performance indicators for a plurality of communication devices on a cellular network and network performance indicators for the cellular network. The method also includes obtaining historical data regarding the plurality of performance indicators for each of a series of time points during a past time period; the historical data for each of the plurality of performance indicators form an array of values for that performance indicator. The method further includes generating from each array a set of inputs to an algorithm for predicting a throughput of the cellular network during a future time period; the set of inputs comprises quantiles of the array, and the algorithm comprises a machine learning algorithm. Other embodiments are disclosed.

Abstract: At least one embodiment of the invention provides a photonic subsystem for integrating onto a photonic platform. The subsystem comprises a laser source and a plurality of optical components for focusing and directing a laser beam emitted from the laser source into a photonic platform. The laser source and plurality of optical components are mounted to a substrate and encapsulated.

Abstract: A surgical system for penetrating and determining a characteristic of tissue. An instrument generates rotational torque, and a drill bit tool body extends along an axis between a distal end to engage tissue and a proximal end to couple to the instrument. An emitter operatively coupled to the instrument emits light. A detector operatively coupled to the instrument detects light. An emission lightguide within the tool body transmits light emitted by the emitter toward the tissue as the instrument rotates the tool body. A detection lightguide within the tool body is spaced from the emission lightguide and transmit light reflected by the tissue toward the detector as the instrument rotates the tool body. The emitter emits light into the emission lightguide along the axis, and the detector detects light reflected from the tissue exiting the detection lightguide transverse to the axis when the tool body is coupled to the instrument.

Abstract: The present invention provides a probability mass redistributor device comprising an input port and an output port. The device comprises a mapping block configured to perform a selected mapping function from a plurality of mapping functions on a random bitstream to generate an output signal having a desired probability mass function, at least one difference block, wherein the input to the at least one difference block comprises the output from the mapping block, and the output of the at least one difference block produces a modulation term, and wherein the output of each difference block is the difference between a previous value of the input signal to the block and a current value of the input signal to the block, and a summing block for summing a signal received by the input port and the modulation term to form an output signal.

Abstract: The present invention provides a method for performing high dynamic range low inter-pixel spatial and wavelength crosstalk optical image detection in a camera comprising an Optical Array Device (OAD), a point Photo Detector (PD) and a Photo Detector Array (PDA) sensor. The method comprises imaging incident light from an object onto an image plane of the Optical Array Device (OAD) to form an incident image map; selecting by the OAD and the Point Photo Detector and by the OAD and the Photo Detector Array a plurality of pixels on the incident image map for time-frequency coding; time-frequency coding the selected pixels by the OAD; detecting by the point PD the optical irradiance values of the time-frequency coded pixels output from the OAD; and performing signal processing on the detected optical irradiance values to determine the light intensity of each of the selected pixels.

Abstract: The invention provides a photonic package system comprising at least two optical alignment pins integrated on a package substrate. A key feature of this invention is the addition of alignment structures within the package. When combined with the use of micro optics it enables a ‘fiber-less’ photonic package system that requires no physical connection between and optical fiber and the photonic package system.

Abstract: The invention provides plastic 3D printed battery cell comprising a first layer coupled with a cathode material and a second layer coupled with an anode material. An aqueous electrolyte gel material is deposited onto the surface of the cathode material and the anode material, wherein the first and second layers are sealed to house the cathode material, the anode material and the electrolyte gel material. The invention provides a combination of a customisable plastic battery cell design using 3D printing with an all-in-one gel electrolyte enable the cells to be built in a variety of sizes and shapes allowing for greater integration of energy storage into electronic, medical or wearable systems. A method for making the 3D printed battery cell is also described.

Abstract: The current invention provides use of a CLA-producing bacterium for the in vivo conversion in the gut of polyunsaturated fatty acids to CLA. The CLA-producing bacterium is selected from one or more of the group consisting of propionibacteria, lactobacilli, lactococci and streptococci, and bifidobacteria.

Abstract: A surgical system for penetrating and determining a characteristic of tissue. An instrument generates rotational torque, and a drill bit tool body extends along an axis between a distal end to engage tissue and a proximal end to couple to the instrument. An emitter operatively coupled to the instrument emits light. A detector operatively coupled to the instrument detects light. An emission lightguide within the tool body transmits light emitted by the emitter toward the tissue as the instrument rotates the tool body. A detection lightguide within the tool body is spaced from the emission lightguide and transmit light reflected by the tissue toward the detector as the instrument rotates the tool body. The emitter emits light into the emission lightguide along the axis, and the detector detects light reflected from the tissue exiting the detection lightguide transverse to the axis when the tool body is coupled to the instrument.

Abstract: Bifidobacterium longum strain NCIMB 41676 improves sleep.

Abstract: The present invention relates to a method for the treatment of cancer in a subject which comprises the steps of: (i) administering electroporation to a tumour in the subject; and (II) administering a T or B-cell activiating agent to the subject, wherein step (i) and (II) may be performed in either order.

Abstract: A rectifying junction (15) is formed in a conduction path provided in a material (1). A size of the material (1) is smaller than a threshold size in a first dimension, the threshold size being the size required for the material (1) to exhibit sufficient quantum confinement such that it forms a semiconductor. A surface of a first region (17) of the material (1) is arranged to decrease the bandgap of the material such that the first region is conducting. A surface of a second region (19) of the material (1) is arranged to preserve a bandgap such that the second region is semiconducting. The second region (19) is contiguous to the first region (17), such that a rectifying junction (15) is formed at a boundary (21) between the first region and the second region.

Abstract: An antibiofilm composition comprising a compound of formula (A1), (A2) or (A3): wherein each of R1, R2, R3, R4, R5, R6 and R7 is independently selected from hydrogen, alkyl, alkenyl, aryl, halo, alkoxy, hydroxyl, amino, nitro, sulfoxy, thiol, carboxy, alkyl carboxy and amido; and X may be O or S, wherein the composition does not comprise a compound of formula (B1) or (B2):

Abstract: A poly(methyl methacrylate) (PMMA) membrane having a highly porous, reticulated, 3-D structure suitable for lateral flow diagnostic applications is described. Also described is a method for producing a poly(methyl methacrylate) (PMMA) membrane that comprises the steps of mixing a suitable amount of PMMA, a solvent and a optionally one of either a co-solvent or a non-solvent to produce a solution, casting a thin film of the solution onto a support, and removal of the solvent from the solution to produce the PMMA membrane. A lateral flow diagnostic device comprising a highly porous PMMA membrane as a reaction membrane is also described.