Abstract: Provided herein are small molecule modulators of CXCR4 activity (e.g., agonists, antagonists, inverse agonists, partial agonists), and methods of use thereof (e.g., for the treatment of disease).

Abstract: Disclosed are various embodiments that relate to multi-agent decision system based at least in part on a dual's dual problem formulation. The embodiments limited the amount of information exchanged among autonomous entities. The embodiments can incorporate existing AC optimal power flow (OPF) software systems. In one embodiments, a subgradient-based iterative method is used.

Abstract: The present disclosure relates to a 5th Generation (5G) or a pre-5G communication system provided to support a higher data transmission rate than a system beyond a 4th Generation (4G) communication system such as Long Term Evolution (LTE). The purpose of the present disclosure is to maximize adaptive transmission performance by designing a puncturing order and a repetition order individually in optimized order. An operation method of a transmission device for adaptive transmission of a codeword according to an embodiment of the present disclosure includes generating a codeword using a polar code and transmitting a packet including at least one codeword indicated by a repetition order when bit repetition is needed. The repetition order is determined based on at least one of channel polarization or channel quality information.

Abstract: A modular planar interconnect device for a solid oxide fuel cell includes a planar interconnect body, a pair of upper shielding plates, and a pair of lower shielding plates. The upper shielding plates are configured to be respectively fitted between front and rear boundary wall surfaces of a first inlet region of the planar interconnect body and between front and rear boundary wall surfaces of a first outlet region of the planar interconnect body. The lower shielding plates are configured to be respectively fitted between right and left boundary wall surfaces of a second inlet region of the planar interconnect body and between right and left boundary wall surfaces of a second outlet region of the planar interconnect body.

Abstract: A system and method for patient-adaptive hemodynamic management is described. One embodiment includes a system for hemodynamic management including transfusion, volume resuscitation with intravenous fluids, and medications, utilizing monitored hemodynamic parameters including the described dynamic predictors of fluid responsiveness, and including an intelligent algorithm capable of adaptation of the function of the device to specific patients.

Abstract: A biological information measuring apparatus includes a radiation emitting unit configured to emit radiation to a subject, a biomagnetic field detector configured to detect a biomagnetic field on the subject, and a radiation sensitive material having sensitivity to the radiation, having enough size for enabling radiography of an examination target of the subject, and being nonmagnetic. The radiation sensitive material is arranged between an examination region where the examination target of the subject is to be positioned and the biomagnetic field detector.

Abstract: The invention relates generally to genetically modified non-human animals expressing human polypeptides and their methods of use.

Abstract: The invention is directed to peptides which inhibit phosphorylation of an amino phosphoacceptor domain of C/EBP? and their use for treating inflammation and fibrosis.

Abstract: A Surface Plasmon Scanning-Tunneling Chemical Mapping (SPSTM) system is disclosed that determines identification characteristics of a target material. An optical beam source launches an optical beam that propagates through a transparent optical element to a material layer to excite surface plasmons of the material layer. An optical probe with a nanometer-sized tip is positioned over a nanometer-sized region of the target material, which is positioned on the material layer, to measure a probe signal associated only with the surface plasmons that tunnel from the material layer through the nanometer-sized region of the target material and collected by the optical probe. An optical property analyzer is configured to determine at least one optical property associated with the nanometer-sized region based on the probe signal associated with the surface plasmons collected by the optical probe.

Abstract: The present invention mainly discloses a high-efficiency OLED device, comprising: an anode substrate, a hole transport layer (HTL), at least one emission layer (EML), an electron transport layer (ELT), and a cathode layer. In this high-efficiency OLED, LUMO level of the HTL, LUMO level of the EML and LUMO level of the ETL together form a step-like LUMO level, and HOMO level of the HTL, HOMO level of the EML and HOMO level of the ETL also constitute one step-like HOMO level. On the other hand, the electron mobility of the ETL is greater than the EML's electron mobility by at least 2 orders in this high-efficiency OLED. Moreover, a variety of experimental data have proved that, a specific OLED would certainly exhibits outstanding luminance performance as long as the specific OLED is made based on the above-mentioned physical characteristics limitations for the ETL, the EML and the HTL.

Abstract: The present invention belongs to the flue gas desulfuration field. Specifically, the present invention relates to a supported solid-phase catalyst for oxidizing the by-product magnesium sulfite in a magnesium desulfuration process, and to preparation method and use thereof. The catalyst uses an activated carbon particle as a support, and cobalt nitrate, manganese nitrate, copper nitrate and ferrous nitrate as catalytically active components. The preparation method is as follows: mixing the pre-treated activated carbon support with the catalytically active components, followed by oscillating, standing under microwave irradiation, filtrating, drying, baking, so as to obtain the supported solid-phase catalyst.

Abstract: A novel methodology for computing the medial axis/skeleton of a discrete binary object using a ‘divide and conquer’ algorithm, in which any 3D object is first sliced into a series of 2D images in X, Y and Z directions. Then, a geometric (Voronoi) algorithm is applied on each 2D image to extract the respective medial axis. This information is then combined to reconstruct the medial axis of the original 3D object using an intersection technique. An optional 3D interpolation step to achieve continuous connected skeletons uses Delaunay triangles and a spherical search to establish the nearest neighboring points in 3D space to interpolate between. Test results show that the proposed 3D Voronoi and optional interpolation algorithms are able to accurately and efficiently extract medial axes for complex 3D objects as well. Finally, an axis-smoothing algorithm using the same Delaunay triangle and spherical test is operable to remove unwanted noise from the extracted medial axis.

Abstract: A CO2 adsorbent that includes MIL-100(Fe) and various amounts of carbon nanotubes that are dispersed therein, and a method of capturing CO2 with a CO2 adsorbent that includes an adsorbent matrix of a zeolite and/or a metal organic framework and carbon nanotubes that are dispersed within the adsorbent matrix. Various embodiments of the CO2 adsorbent and the method of capturing CO2 are also provided.

Abstract: Methods for distributed storage in accordance with embodiments of the invention enable secret sharing. One embodiment includes encoding source data using an encoding system to produce a plurality of sets of encoded data, where: the source data can be recovered from at least a portion of less than all of the plurality of sets of encoded data; and the source data cannot be recovered using less than a threshold number of the plurality of sets of encoded data; storing each of the plurality of sets of encoded data on a storage device from a set of storage devices on which encoded data is stored; determining a set of storage devices that are available using a decoding system, where the set of storage devices that are available does not include all of the storage devices in the set of storage devices on which encoded data is stored.

Abstract: A method, system and computer program product for load balancing of graph processing workloads. Synthetic proxy graphs are generated to characterize machines' graph processing speeds in a cluster. Each of the graph applications executing in the cluster is profiled using the synthetic graphs to form profiling sets. These formed profiling sets are run among the machines in the cluster to capture the machines' graph processing speeds. A metric for each of the graph applications is computed from a relative speedup among the machines in the cluster and/or the graph processing speeds. A graph file of a natural graph and a graph application are loaded. A metric out of the computed metrics is selected based on the graph application. The natural graph is then partitioned into multiple chunks which is distributed onto two or more machines in the cluster based on the selected metric and a user selected partitioning algorithm.

Abstract: Peptide compositions having bacteriocidal peptides are described. Also described is a method of bacterial infections using compositions comprising bacteriocidal peptides or modified peptides with structural relationships to cathelicidins.

Abstract: Methods are provided for generating a crystalline material. The methods comprise depositing a textured thin film in a growth seed area, wherein the textured thin film has a preferential crystallographic axis; providing a growth channel extending from the growth seed area, the growth channel permitting guided lateral growth; and growing a crystalline material in the growth channel along a direction that is substantially perpendicular to the preferential crystallographic axis of the textured thin film. A preferred crystalline material is gallium nitride, and preferred textured thin films are aluminum nitride and titanium nitride.

Abstract: The present invention provides a method of hydraulically fracturing a well penetrating an subterranean formation by optimizing the spacing of fractures along a wellbore to form a complex network of hydraulically connected fractures by identifying a deviated wellbore in a subterranean formation; introducing a series of fractures in the deviated wellbore, wherein the series of fractures comprising at least a first fracture, a second fracture, a third fracture and a fourth fracture each separated by a non-uniformed and an increased spacing distance such that the spacing distance from each adjacent fracture in the series of fractures is at an increased distance; and forming one or more complex fractures extending from the series of fractures to form a complex fracture network.

Abstract: A emitter is formed of a thin-film membrane disposed within a cavity so as to provide a output beam. The emitter may be configured to obtain broadband light. The emitter may enhance the emissivity of light over a broad spectral band.

Abstract: Provided herein are functionalized phosphonates and methods for making same via phosphite addition to an atom alpha to an electron withdrawing group. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.