摘要:
The present disclosure relates to systems, non-transitory computer-readable media, and methods for communication using multiple media content items stored on both a sending device and a receiving device. In particular, in one or more embodiments, the disclosed systems receive an application package. The application generates a message from input text and matches a portion of the text input to an audio content item using mapping data. The application generates a message including the text input and an identifier to the audio content item. A receiving system receives an application package. The application receives the message and locates the audio content item on the application package using the identifier and presents the message, including the text and the audio content item.
摘要:
A system and method of hosting a user interface of a network device are provided. A particular method includes receiving a request at a server to display a user interface of the network device, authenticating an end user device to validate an identity of a user, and communicating display information of the user interface of the network device to the end user device for display. The server hosted user interface permits monitoring and interactions with the network device by a user of the end user device.
摘要:
The invention relates to a cognitive radio (CR) WiFi network which includes a plurality of radio environment aware WiFi terminals, which collect local WiFi interference information and send this information to a CR network management system (NMS). The CR NMS includes a database for storing historical records of the interference information obtained from the terminals, and cognitive engines for analyzing the stored historical interference records and determining terminal-specific transmission and reception parameters. In one embodiment the network implements a deterministic NMS-directed networks-wide TDD/TDM scheduling of WiFi communications for optimal channel re-use and interference avoidance, and a novel terminal synchronization mechanism.
摘要:
Apparatus and methods for detecting, characterizing, and compensating motion-related error of moving micro-entities are described. Motion-related error may occur in streams of moving micro-entities, and may represent a deviation in and expected arrival time or an uncertainty in position of a micro-entity within the stream. Motion-related error of micro-entities is observed in a flow cytometer, e.g., as pulse jitter, and is found to have a functional dependence on a parameter of the system. The pulse jitter can be compensated, according to one embodiment, by adjusting data acquisition observation windows. For the flow cytometer, a reduction of pulse jitter can improve measurement accuracy, resolution of doublets, system throughput, and enable an increase in an interrogation region for probing the micro-entities.
摘要:
The disclosure relates to a system and method of processing device settings of a device. In a particular embodiment, the method includes requesting the device to provide the device settings. The device settings include wide area network (WAN) and local area network (LAN) network settings. The method further includes storing the device settings in a device independent format. After the device settings have been stored in the device independent format, the device settings may be subsequently retrieved and used for replacement of the network device in a computer network. In a particular embodiment, the device settings are stored in the device independent format in a second device, such as at a server or a personal computer.
摘要:
A method for the non-invasive imaging of an anatomic tissue structure in isolation from surrounding tissues, including: receiving from an input device magnetic imaging data from a patient of the anatomic tissue structure and surrounding tissues; segmenting the imaging data to isolate the anatomic tissue structure imaging data from the imaging data for the surrounding tissues; separating the anatomic tissue structure imaging data into data populations corresponding to tissue microstructures; constructing an image from the imaging data for at least one of the tissue microstructures; and storing or displaying the image. An apparatus embodying the disclosed method is also described, as well as a method for the quantitative measurement of a nerve tissue suspected of demyelination.
摘要:
Various embodiments of the present invention provide a method of detecting inaccessible radiation sources by measuring corresponding ions and excited molecules created by radiation, using LIDAR technology. The LIDAR system of the present invention employs a pulsed laser transmitter, a telescope receiver, and associated control and acquisition systems. Light propagates out from the laser transmitted and is directed into the volume surrounding the radioactive source, or the “ion cloud.” The ion cloud absorbs the transmitted light, which induces the non-fluorescing ions to fluoresce. Light from the ion cloud is then backscattered and the telescope receiver subsequently collects the photons from the backscattered light. The intensity of the fluorescence (determined by the photon count) is measured, which provides an indication of the number density of the ionized atoms. Algorithms can then be used to relate the measured ionization rates to the source activity.
摘要:
At least one embodiment of the inventive technology may be an item support apparatus (1) that comprises at least two fee (4); a base (5) from which said feet extend at a first retention element (6); at least two risers (7) retained to the base by a second retention element (8); and at least one arm (9) retained to each riser by an arm retainer (10). Disclosed is a novel, efficient yet strong item support stand that may be used to support an item such as a musical instrument (a keyboard, as but one example) and that may be collapsible and/or adjustable in certain embodiments.
摘要:
A method for the non-invasive imaging of an anatomic tissue structure in isolation from surrounding tissues, including: receiving from an input device magnetic imaging data from a patient of the anatomic tissue structure and surrounding tissues; segmenting the imaging data to isolate the anatomic tissue structure imaging data from the imaging data for the surrounding tissues; separating the anatomic tissue structure imaging data into data populations corresponding to tissue microstructures; constructing an image from the imaging data for at least one of the tissue microstructures; and storing or displaying the image. An apparatus embodying the disclosed method is also described, as well as a method for the quantitative measurement of a nerve tissue suspected of demyelination.
摘要:
The disclosure relates to a system and method of processing device settings of a device. In a particular embodiment, the method includes requesting the device to provide the device settings. The device settings include wide area network (WAN) and local area network (LAN) network settings. The method further includes storing the device settings in a device independent format. After the device settings have been stored in the device independent format, the device settings may be subsequently retrieved and used for replacement of the network device in a computer network. In a particular embodiment, the device settings are stored in the device independent format in a second device, such as at a server or a personal computer.