Abstract: Aspects of the subject disclosure may include, for example, receiving data from an external network device positioned outside of a neighborhood network, wherein the first waveguide system is a first network node of the neighborhood network. Electromagnetic waves are sent to a second waveguide system via a transmission medium, wherein the electromagnetic waves are guided by the transmission medium without utilizing an electrical return path, wherein the electromagnetic waves convey the data. The second waveguide system is determined according to a neighborhood routing scheme that limits delivery of the data to a group of recipient devices within a service area of the neighborhood network and the second waveguide system is a second network node of the neighborhood network. Other embodiments are disclosed.

Abstract: Aspects of the subject disclosure may include, for example, generating first traffic for transmitting along a network path toward a recipient device, determining a schedule for transmitting the first traffic, and facilitating transmission of the first traffic along the network path using a first waveguide system. The first waveguide system has a dielectric coupler, and operates by communicating electromagnetic waves via the dielectric coupler at a physical interface of a transmission medium that propagate without utilizing an electrical return path. The electromagnetic waves are guided by the transmission medium, wherein the electromagnetic waves at least partially surround an outer surface of the transmission medium, and wherein the electromagnetic waves have a non-optical frequency range. Other embodiments are disclosed.

Abstract: A user posting content to a social networking system provides a conversion definition along with the content. The conversion definition identifies a type of interaction associated with the content, such as type of interaction with the content that the user would like to track. After the content is presented to additional users, the social networking system identifies additional users performing the type of interaction with the content identified by the conversion definition. One or more metrics describing the interactions of the type of interaction associated with the content are provide to the user that posted the content.

Abstract: An example operation may include one or more of initiating an application cluster including a number of instances of an application, storing the application cluster members in a blockchain, identifying the application cluster members and testing whether communication paths to the cluster members are operable, creating a blockchain transaction including an account and status of the application cluster members, and storing the blockchain transaction in the blockchain.

Abstract: A medical device and caretaking management system (10) includes a plurality of medical devices (14) that transmit equipment data and patient data. A central or distributed monitoring system (12) receives the equipment data and patient data from the plurality of medical devices, derives an acuity for each of the patients, and assigns caregivers and equipment based on the derived acuity for display on a display device (26).

Abstract: Each sensor of a plurality of sensors operates independently to perform at least a monitoring function acquiring sensor data indicative of a common physiological parameter and a grading function performed occasionally to assign a current signal quality grade for the sensor that is indicative of operational status of the monitoring function of the sensor. A data structure stores information pertaining to the plurality of sensors including at least priorities of the plurality of sensors respective to the common physiological parameter and the current signal quality grades for the sensors. Each sensor further operates to perform at least one output function generating an output signal conditional upon content of the data structure including at least the priorities and the current signal quality grades of the sensors indicating the output function should be performed.

Abstract: Aspects of the subject disclosure may include, for example, receiving data from an external network device positioned outside of a neighborhood network, wherein the first waveguide system is a first network node of the neighborhood network. Electromagnetic waves are sent to a second waveguide system via a transmission medium, wherein the electromagnetic waves are guided by the transmission medium without utilizing an electrical return path, wherein the electromagnetic waves convey the data. The second waveguide system is determined according to a neighborhood routing scheme that limits delivery of the data to a group of recipient devices within a service area of the neighborhood network and the second waveguide system is a second network node of the neighborhood network. Other embodiments are disclosed.

Abstract: Aspects of the subject disclosure may include, for example, generating first traffic for transmitting along a network path toward a recipient device, determining a schedule for transmitting the first traffic, and facilitating transmission of the first traffic along the network path using a first waveguide system. The first waveguide system has a dielectric coupler, and operates by communicating electromagnetic waves via the dielectric coupler at a physical interface of a transmission medium that propagate without utilizing an electrical return path. The electromagnetic waves are guided by the transmission medium, wherein the electromagnetic waves at least partially surround an outer surface of the transmission medium, and wherein the electromagnetic waves have a non-optical frequency range. Other embodiments are disclosed.

Abstract: A movement and/or a position of an object (1) to be monitored is detected. At least one marker (2) radiating light is arranged in an area of the object (1) such that a camera (4) can capture images of the marker (2), when the object (1) is in a first position. An image processing unit (6) is enabled to detect the marker (2) in the images and to detect a movement and/or a second position of the object (1) in response to determining that at least a part of the marker (2) cannot be detected in one or more of the images. The object (1) may be a person laying in a bed and the marker (2) may be arranged adjacent to the bed's lying area (3) so that the system can detect when the person leaves the bed and notify nursery staff or an emergency central.

Abstract: Aspects of the subject disclosure may include, for example, a first network device receiving from a second network device a software, the first network device adjusting operations at the first network device according to the software, the first network device providing a digital signature to the software to generate an adjusted software where the digital signature indicates that the first network device has received the software, and the first network device transmitting, to a third network device, the adjusted software. Other embodiments are disclosed.

Abstract: A method for controlling access to data being processed by a remote computing resource includes issuing a public encryption key for a data creator from a public certificate authority, detecting an encounter with a data owner, creating private encryption keys for the data creator and the data owner in response to detecting the encounter, encrypting data being sent to the remote computing resource with the public encryption key, the data creator's private encryption key, and the data owner's private encryption key, decrypting the data based on public verification of the public encryption key and local verification of the data creator's private encryption key and the data owner's private encryption key at the remote computing resource, and controlling the data creator's access to the data by altering the permission of at least one of the public encryption key and data creator's private encryption key.

Abstract: Aspects of the subject disclosure may include, for example, determining whether communications are encrypted, determining a communication type for the communications according to sensitivity criteria, encrypting the communications according to the communication type to generate encrypted communications, and transmitting to a second network device the encrypted communications. Other embodiments are disclosed.

Abstract: A social networking system includes pages created by users for providing content related to topics of interest. An interaction engine captures data and maintains analytical information about how users interact with pages and posts. When a user takes an action such as liking a page or a post, the interaction engine updates the page's activity history to reflect the activity and information about the user who took the action. The interaction engine also measures the reach of pages and posts, by determining how and from where each user viewed the page and its contents. The interaction engine further tracks the community's interest in pages and posts by determining how many unique users create stories that include a page or its content. An insights module uses the data obtained by the interaction engine to synthesize graphical reports about page interactions and present the reports to page administrators.

Abstract: Aspects of the subject disclosure may include, for example, a first network device receiving from a second network device a software, the first network device adjusting operations at the first network device according to the software, the first network device providing a digital signature to the software to generate an adjusted software where the digital signature indicates that the first network device has received the software, and the first network device transmitting, to a third network device, the adjusted software. Other embodiments are disclosed.

Abstract: Provided herein are computer implemented methods, systems and processes for determining a transmission metric or transmission path for related pathogens. Also provided herein is a non-transitory computer-readable storage medium with an executable program stored thereon, which program is configured to instruct a microprocessor to generate a transmission path for related pathogens.

Abstract: A method for processing sequencing data, including: (i) generating, by a sequencing platform, a plurality of sequencing signals from a sequencing operation, each of the plurality of sequencing signals representing a genetic sequence; (ii) sampling, by a controller, each of the plurality of sequencing signals at a Nyquist rate of the sequencing platform to generate an upsampled signal; (iii) receiving, for each of the plurality of sequencing signals, the respective upsampled signal and information associated with the respective sequencing signal, comprising a base pair read number and a time stamp for the respective sequencing signal; (iv) packaging, by the controller for each sequencing signal, the received upsampled signal, base pair read number, and time stamp into a data packet; (v) organizing the packaged data packets into a multiplexed single data stream; and (vi) transmitting the multiplexed single data stream to a remote system.

Abstract: A method (100) of ensuring optimal use of next generation sequencing (NGS) in complex therapy decision making is disclosed herein.

Abstract: Aspects of the subject disclosure may include, for example, generating first traffic for transmitting along a network path toward a recipient device, determining a schedule for transmitting the first traffic, and facilitating transmission of the first traffic along the network path using a first waveguide system. The first waveguide system has a dielectric coupler, and operates by communicating electromagnetic waves via the dielectric coupler at a physical interface of a transmission medium that propagate without utilizing an electrical return path. The electromagnetic waves are guided by the transmission medium, wherein the electromagnetic waves at least partially surround an outer surface of the transmission medium, and wherein the electromagnetic waves have a non-optical frequency range. Other embodiments are disclosed.

Abstract: Aspects of the subject disclosure may include, for example, a network device that accesses internet protocol addresses associated with a group of end point devices where the network device is a closest network device to the group of end point devices, and transmitting data to another network device responsive to a determination that an internet protocol address associated with the data from an end point device is one of the internet protocol addresses associated with the group of end point devices. Other embodiments are disclosed.

Abstract: A method of monitoring a patient includes receiving patient data from one or more sensors a patient monitoring system, comparing the received patient data with preselected thresholds indicative of patient status, determining a patient status from comparing the received patient data with the preselected thresholds, and adjusting a sampling frequency of the one or more sensors based on the determined patient status.