Abstract: An electro-optic system, the electro-optic system that may include an input port that is configured to receive a bandpass signal that conveys information; wherein the bandpass signal is a radio frequency (RF) signal; an optical carrier source that is configured to generate an optical carrier signal having an optical carrier frequency; at least one electrical bias circuit that is configured to generate at least one electrical bias signal; an electro-optic modulation circuit that is linear at the optical field; a manipulator that is configured to (a) receive the at least one electrical bias signal and the bandpass signal, (b) generate, based on the at least one electrical bias signal and the bandpass signal, at least one modulating signal; wherein the electro-optic modulation circuit is configured to modulate the optical carrier by the at least one modulating signal to provide an output optical signal that comprises at least one optical pilot tone and at least one optical sideband that conveys the information.

Abstract: The present invention provides a system and method for diagnosing, screening or monitoring a disease by analyzing the breath of a test subject using a selected definitive sensor set in conjunction with a pattern recognition analyzer, wherein the pattern recognition analyzer receives output signals of the sensor set, compares them to disease-specific patterns derived from a database of response patterns of the sensor set to exhaled breath of subjects with known diseases, wherein each of the disease-specific patterns is characteristic of a particular disease, and selects a closest match between the output signals of the sensor set and the disease-specific pattern.

Abstract: Disclosed herein is a method for rectifying a 2D multi-view image. The method for rectifying a 2D multi-view image according to an embodiment of the present disclosure may include: detecting uniformly the at least one feature point in each region unit distinguished by considering a distribution of feature points of a plurality of input images: removing an error of the least one feature point; determining a corresponding pair for a vertical or horizontal direction of the at least one feature point; by considering an arrangement relationship of the plurality of input images, projecting the at least one feature point onto a projection plane; determining a disparity error for a corresponding pair for the at least one feature point that is projected onto the projection plane; and, by considering the disparity error, performing image rectification based on the at least one feature point.

Abstract: This invention provides a nanoparticle made of: a potato protein; and a bioactive compound bound to the potato protein. The invention further provides foods or beverages, including clear ones, which are supplemented with the nanoparticles made of: a potato protein; and a hydrophobic bioactive compound bound to the potato protein. The process of making the nanoparticles of the invention, and methods for supplementing foods or beverages with hydrophobic bioactive compounds via the nanoparticles of the invention and are also provided.

Abstract: There is provided a computer implemented method of manufacturing a truss of a three dimensional (3D) object representation, comprising: receiving a definition of the 3D object representation, arranging within an interior space of the 3D object representation, a plurality of instances of a sphere having a common radius to create a packed sphere arrangement, computing nodes of a truss for the 3D object representation, each respective node positioned at a center of each respective instance of each sphere of the packed sphere arrangement, computing beams of the truss by connecting adjacent nodes with respective beams, and providing code instructions for execution by a manufacturing device controller of a manufacturing device for manufacturing the truss.

Abstract: In some aspects, mutant or variant Fc domains are provided that exhibit increased binding to FcRn and increased half-life after administration in vivo. The Fc domain may be comprised in a glycosylated or aglycosylated antibody. Methods for using the mutant or variant Fc domains or polypeptides comprising the mutant or variant Fc domains are also provided.

Abstract: There is provided a method of generating instructions for manufacturing of a functionally graded material (FGM) object, comprising: providing geometric trivariate(s) defining geometry of FGM object, providing material trivariate(s) defining material properties of the FGM object, computing a volumetric representation of the FGM object that includes the geometric trivariate(s) and the material trivariate(s) spanning a same parametric domain, and computing code instructions for execution by a manufacturing device controller of a manufacturing device for manufacturing of the FGM object by: identifying locations within the boundaries defined by the geometric trivariate(s) of the volumetric representation, computing respective material value(s) for each of the locations according to the material trivariate(s) of the volumetric representation corresponding to the identified locations, and converting the locations from the parametric domain to the Euclidean space, wherein each of the locations in Euclidean space is a

Abstract: Provided are methods for the diagnosis and treatment of liver cancers such as hepatocellular carcinoma (HCC). In some aspects, the methods comprise administering an inhibitor of STEAP2 to a subject to treat a liver cancer. In some embodiments, a STEAP2 targeting siRNA or antibody is administered to a subject to treat HCC.

Abstract: A system for generating cold plasma is presented, suitable for use in in-vivo treatment of biological tissue. The system comprising: a control unit connectable to an elongated member at a first proximal end of the elongated member. The elongated member comprises a plasma generating unit at a second distal end thereof and gas and electricity transmission channels extending from said first proximal end towards said plasma generating unit. The control unit comprises a gas supply unit configured to provide predetermined flow rate of selected gas composition through said gas transmission channel and a power supply unit configured to generate selected sequence of high-frequency electrical pulses, typically in mega Hertz range, directed through said electricity transmission channel, thereby providing power and gas of said selected composition to the plasma generating unit for generating cold plasma.

Abstract: A film antenna according to an embodiment of the present invention includes a first electrode layer, a dielectric layer having a thickness in a range from 50 ?m to 1,000 ?m and having a dielectric constant in a range from 2 to 10 on the first electrode layer, and a second electrode layer on the dielectric layer. The dielectric constant and the thickness of the dielectric layer are controlled to improve high-frequency driving property of the film antenna.

Abstract: The present invention relates to heparanase-neutralizing monoclonal antibodies (m Abs), pharmaceutical composition comprising same, and use thereof for treating a disease or disorder associated with heparanase activity, including but not limited to cancer, inflammation, diabetes and related complications. The present invention further provides combined therapies comprising the heparanase-neutralizing m Ab and an anti-cancer treatment such as chemotherapy or radiation, for treating a proliferative disease in a subject.

Abstract: An antenna structure includes an antenna device including a dielectric layer and a plurality of radiation patterns on an upper surface of the dielectric layer, and a flexible circuit board including a feeding wiring electrically connected to the radiation patterns. The feeding wiring includes a plurality of individual wirings, each of which electrically connected to each of the radiation patterns, and lengths of neighboring individual wirings included in at least one pair from the plurality of individual wirings are different from each other.

Abstract: Provided herein are methods for the diagnosis, assessment, and treatment of cancer. In some aspects, detection of intracellular or cytoplasmic PD-L1, or measuring the ratio of cytoplasmic to surface PD-L1, can be used to identify cancers that may respond to immunotherapies or a DDR inhibitor such as, e.g., a Chk1 inhibitor, a PARP inhibitor, an ATM inhibitor, or an ATR inhibitor.

Abstract: There is provided an ultrasound device comprising: ultrasound transducer(s), memory storing code, hardware processor(s) coupled to the ultrasound transducer(s) and the memory for executing stored code comprising: activating the transducer(s) for simultaneously transmitting at least one line with a predefined focus width, and receiving an indication of a plurality of narrow-focused received lines, inputting the indication of the narrow-focused received lines into a convolutional neural network (CNN) trained on pairs of ultrasound imaging data capturing rapid motion of the certain tissue of sample patient(s), including a single-line ultrasound imaging data captured based on a single line in response to a transmitted single narrow-focused pulse, and a multiple-line ultrasound imaging data captured based on receiving narrow-focused lines in response to simultaneously transmitted at least one line, outputting adjusted narrow-focused received lines, and computing an adjusted ultrasound image according to the adjust

Abstract: A Doppler radar sensor includes a radar and a bondwire interconnection. The bondwire interconnection is connected to a signal generator and an antenna of the radar and configured to transmit a radio frequency signal generated by the signal generator to the antenna and transmit a reflected signal received by the antenna to a demodulator of the radar. A metal strip, a first shunt bondwire and a second shunt bondwire of the bondwire interconnection can be used as a matching circuit of the antenna to decrease the transmission loss and increase the detection distance of the radar.

Abstract: A system for generating light, comprises a spectral light source, characterized by a spectral line shape described by a visibility function; and a multimode waveguide, characterized by an optical path difference distribution described by a standard deviation. The standard deviation typically matches, within a predetermined tolerance, a location of a zero point of the visibility function at which a contrast of the visibility function is less than 0.1.

Abstract: A sulfur-doped silicon negative electrode material, a preparation method for a sulfur-doped silicon negative electrode material, a negative electrode for a lithium secondary battery comprising the sulfur-doped silicon negative electrode material, and a lithium secondary battery comprising the negative electrode, wherein the sulfur-doped silicon negative electrode material has an internal pore channel having an average width of 500 nm to 3 ?m and an average external diameter of 1 ?m to 5 ?m.

Abstract: The present invention provides an implant which includes: (a) an autologous engineered tissue; and (b) a vasculature, wherein the engineered tissue is a porous scaffold embedded with endothelial cell, a fibroblast, a myoblast, a mesenchymal cell, an adipocyte, or any combination thereof, wherein the vasculature feeds the cells. Further, the invention provides a method for treating a subject afflicted with a large soft tissue defect by implanting the implant of the invention.

Abstract: A method for method for manufacturing a rutile titanium dioxide layer according to the inventive concept includes forming a sacrificial layer on a substrate, and depositing a titanium dioxide (TiO2) material on the sacrificial layer. The sacrificial layer includes a metal oxide of a rutile phase. An amount of oxygen vacancy of the sacrificial layer after depositing the titanium dioxide material is greater than an amount of oxygen vacancy of the sacrificial layer before depositing the titanium dioxide material. The metal oxide includes a metal different from titanium (Ti).

Abstract: The present invention relates to a polymeric hollow fiber membrane and a carbon molecular sieve hollow fiber membrane, both of which have excellent gas separation performance, and processes for preparing the same. Specifically, the present invention relates to a hybrid polymeric hollow fiber membrane that comprises a glassy polymer containing fluorine and a ladder-structured polysilsesquioxane, a hybrid carbon molecular sieve hollow fiber membrane prepared by pyrolysis thereof, and processes for preparing the same. The hybrid polymeric hollow fiber membrane and the hybrid carbon molecular sieve hollow fiber membrane according to the embodiments of the present invention are excellent in gas flux and selectivity and can have a large surface area per unit volume. Thus, they can be advantageously used for separating gases with a high energy efficiency on a large scale.