System, method, and apparatus for providing dynamic, prioritized spectrum management and utilization

Systems, methods, and apparatuses for providing dynamic, prioritized spectrum utilization management. The system includes at least one monitoring sensor, at least one data analysis engine, at least one application, a semantic engine, a programmable rules and policy editor, a tip and cue server, and/or a control panel. The tip and cue server is operable utilize the environmental awareness from the data processed by the at least one data analysis engine in combination with additional information to create actionable data.

System, method, and apparatus for providing dynamic, prioritized spectrum management and utilization

Systems, methods, and apparatuses for providing dynamic, prioritized spectrum utilization management. The system includes at least one monitoring sensor, at least one data analysis engine, at least one application, a semantic engine, a programmable rules and policy editor, a tip and cue server, and/or a control panel. The tip and cue server is operable utilize the environmental awareness from the data processed by the at least one data analysis engine in combination with additional information to create actionable data.

EXPANSION CONTROL FOR BONDING

An element and a bonded structure including the element are disclosed. The element can include a non-conductive region having a cavity extending at least partially through a thickness of the non-conductive region from the contact surface, and a contact feature formed in the cavity. The non-conductive region is configured to directly bond to a non-conductive region of a second element. The contact pad of the element is configured to directly bond to a contact pad of the second element. The contact pad can include a first conductive material and a second conductive material. The first conductive material can have a unit cell size greater than a unit cell size of the second conductive material. The first conductive material can be a metal alloying material. The first conductive material can be a metal silicide and the second conductive material can be a metal. A bonded conductive contact can include a conductive material and an alloying element, and an amount of the alloying element can vary through a thickness of the bonded conductive contact.

Methods, compositions, kits, and systems for enhancing analyte capture for spatial analysis

Provided herein are methods of enhancing spatial resolution of an analyte using sandwich maker system. The methods and systems used herein include a first substrate that includes a plurality of probes that include a capture domain and a spatial domain and a second substrate that includes a plurality of probes comprising a capture domain and a spatial domain.

METHODS FOR PRINTING CELLS AND GENERATING ARRAYS OF BARCODED CELLS

This disclosure relates to compositions and methods for analyzing single cells using cell printing and spatial analysis.

BLOCKCHAIN NODES AND METHODS FOR FACILITATING SPECTRUM SHARING

Blockchain nodes and methods for facilitating spectrum sharing are disclosed. The blockchain node is configured to: determine a spectrum price for a spectrum transaction between a service provider and a mobile network operator based on performance functions of the service provider and the mobile network operator; record spectrum transaction information based on the spectrum price in a blockchain, including: verifying back-block data of a block generated by a leader node in a blockchain network, the block recording the spectrum transaction information based on the spectrum price, the back-block data including only a part of the block; and adding the block generated by the leader node into the blockchain in response to the back-block data passing the verification.

Absorbent Hygienic Article Having an Integrated Drainage Mechanism

The present disclosure provides a hygienic article comprising a multi-layered absorbent pad having a built-in drainage mechanism in the form of a plastic tube that is affixed between two layers of the pad. The portion of the tubing that rests in the pad has a plurality of inlets for capturing excess fluid that accumulates between the layers, funnelling it into the tubing. The other end of the tubing extends out and ends in a connector element that allows it to form a watertight seal with a suction apparatus such as an aspirator. Once the pad is soiled the pad may simply be exchanged for another one which is affixed to the end of the tubing with the fluid inlets.

Dynamic delivery of vehicle event data

An improved system and method of selectively transmitting asset data from one or more sensors associated with the vehicle to a backend server, which is configured to analyze the asset data and, if necessary for further analysis of the asset data (e.g., to determine whether a safety event has occurred) and/or to provide actionable data for review by a safety analyst, requests further asset data from a vehicle device.

System, method, and apparatus for managing vehicle data collection

An apparatus that includes a converged network device (CND), a parameter acquisition circuit, a property translation circuit, a parameter conditioning circuit, and a vehicle property provisioning circuit. The CND regulates communications between a first network zone having a first network endpoint and a second network zone having a second network endpoint. A plurality of vehicle parameter values is generated by the first and the second network endpoints. The parameter acquisition circuit interprets the plurality of vehicle parameter values. The property translation circuit interprets a property request value that comprises at least a portion of a requested vehicle property. The parameter conditioning circuit generates, in response to the property request value, vehicle property data from the plurality of vehicle parameter values, the vehicle property data corresponding to the requested vehicle property. The vehicle property provisioning circuit transmits the vehicle property data to an external device.

SYSTEMS AND METHODS FOR PROCESSING ELECTRONIC IMAGES TO PREDICT LESIONS

Systems and methods are disclosed for predicting the location, onset, or change of coronary lesions from factors like vessel geometry, physiology, and hemodynamics. One method includes: acquiring, for each of a plurality of individuals, a geometric model, blood flow characteristics, and plaque information for part of the individual's vascular system; training a machine learning algorithm based on the geometric models and blood flow characteristics for each of the plurality of individuals, and features predictive of the presence of plaque within the geometric models and blood flow characteristics of the plurality of individuals; acquiring, for a patient, a geometric model and blood flow characteristics for part of the patient's vascular system; and executing the machine learning algorithm on the patient's geometric model and blood flow characteristics to determine, based on the predictive features, plaque information of the patient for at least one point in the patient's geometric model.