Abstract: Mobile agents can be deployed to mobile devices within specific regions of interest to achieve specific goals in respect of events occurring in the region of interest. In order to ensure that the agent can persist within the region of interest until the agent goals are achieved, the agent is configured to locate other devices within the region of interest and to propagate itself, by moving or copying itself, to those other devices. The region of interest may be a mobile and/or dynamic region of interest defined by, for example, a proximity to one or more mobile wireless access points or by an overlapping peer-to-peer communication range of a plurality of mobile devices that are configured to support the agent.

Abstract: One or more embodiments of the present invention include a memory and a processor. The memory includes a plurality of files, a master cluster record, and an operating system. The processor is configured to execute the operating system in order to locate and load each cluster of a file. Each file includes a plurality of clusters and each cluster includes a first pointer and a second pointer. The first pointer is linked to a previous cluster of a file and second pointer is linked to a subsequent cluster of the file using a double linked list data structure.

Abstract: A system, method, and computer readable medium for hybrid kernel-mode and user-mode checkpointing of multi-process applications using a character device. The computer readable medium includes computer-executable instructions for execution by a processing system. A multi-process application runs on primary hosts and is checkpointed by a checkpointer comprised of a kernel-mode checkpointer module and one or more user-space interceptors providing barrier synchronization, checkpointing thread, resource flushing, and an application virtualization space. Checkpoints may be written to storage and the application restored from said stored checkpoint at a later time. Checkpointing is transparent to the application and requires no modification to the application, operating system, networking stack or libraries. In an alternate embodiment the kernel-mode checkpointer is built into the kernel.

Abstract: A sensor interface system for providing a connection between at least one sensor and a maternal-fetal monitor, wherein the interface system converts electrical muscle activity captured by the sensor(s) into uterine activity data signals for use by the maternal-fetal monitor. The sensor interface system of the invention preferably includes a conversion means for converting the signals from the sensor(s) into signals similar to those produced by a tocodynamometer.

Abstract: A system, method, and computer readable medium for hybrid kernel-mode and user-mode checkpointing of multi-process applications. The computer readable medium includes computer-executable instructions for execution by a processing system. A multi-process application runs on primary hosts and is checkpointed by a checkpointer comprised of a kernel-mode checkpointer module and one or more user-space interceptors providing barrier synchronization, checkpointing thread, resource flushing, and an application virtualization space. Checkpoints may be written to storage and the application restored from said stored checkpoint at a later time. Checkpointing is transparent to the application and requires no modification to the application, operating system, networking stack or libraries. In an alternate embodiment the kernel-mode checkpointer is built into the kernel.

Abstract: An example operation includes one or more of initiating a transaction of a blockchain by a contributing member of a group to assign a digital data based document to itself or to at least one other member of the group, validating a block of the blockchain associated with the transaction by the contributing member or the at least one other member that are verified, sending an ephemeral location of the document to the contributing member or the at least one other member that are verified, and modifying the document in the ephemeral location by the contributing member or the at least one other member that is verified.

Abstract: During conversion and transfer of data from a physical machine to a virtual hard disk, a transmuter generates a catalog of contents of the physical machine. Catalog entries are compared to a set of alterations templates which alter matching data. The altered data is then stored in the virtual hard disk. Alterations templates may include filters that exclude unwanted or duplicated catalog entries, mapping filters that transfer source catalog entries to target locations on the virtual hard disk, and add-on filters that add additional data or location references to catalog entries. The disclosed process allows modifications to be made in a systematic way during data transfer.

Abstract: In order to enable a dynamic handshake procedure, a device may be configured with a list of handshake contributors. Contributors with connection handshake properties may be added to the contributor list. To perform handshake, the contributor list is processed to extract the connection handshake properties of each contributor to the handshake. Handlers for handling the connection handshake properties may also be dynamically added and invoked when a handshake is received.

Abstract: A variation of a method for tracking locations of residents within an assisted-care facility includes accessing pressure data recorded by wearable devices at known locations within the assisted-care facility; correlating the pressure data with known locations within the assisted-care facility to generate a map of pressure data at various locations within the assisted-care facility; accessing a first pressure value recorded by a first wearable device assigned to a first resident of the assisted-care facility at approximately the first time and representing a local pressure proximal the first wearable device at a first time; estimating a first location of the first wearable device within the assisted-care facility at approximately the first time based on alignment between the first pressure value and pressure data represented in the map; and recording the first location and a first resident identifier of the first resident assigned to the first wearable device to a database.

Abstract: A method for assessing health risk of a resident at a facility includes: tracking a first series of locations of a first wearable device associated with a resident of the facility; and tracking a first series of activities detected by the first wearable device; calculating a baseline action profile of the resident based on the first series of locations and the first series of activities; tracking a second series of locations of the first wearable device; tracking a second series of activities detected by the first wearable device; calculating a second action profile of the resident based on the second series of locations and the second series of activities; and in response to a deviation between the baseline action profile and the second action profile exceeding a deviation threshold, transmitting a prompt to a care provider associated with the facility to investigate a health status of the resident.

Abstract: One variation of a method for detecting breach events by residents of an assisted living facility includes: defining a first access perimeter within a facility; assigning the first access perimeter to a first resident, in a set of residents in the facility; tracking locations of resident wearable devices associated with residents, in the set of residents, within the facility; disabling a first subregion within the first access perimeter coincident a second location of a second resident, in the set of residents, flagged for separation from the first resident; and, in response to a first location of a first resident wearable device associated with the first resident falling outside of the first access perimeter, distributing a first breach event prompt to assist the first resident, proximal the first location, to care provider mobile devices associated with care providers affiliated with the facility.

Abstract: One variation of a method for detecting and responding to falls by residents within a facility includes: at a wearable device worn by a resident, writing sensor data from a sensor integrated into the wearable device to a buffer, inputting sensor data into a compressed fall detection model—defining a compressed form of a complete fall detection model and stored locally on the wearable device—to detect a fall event at a first time, and transmitting a corpus of sensor data from the buffer and a cue for confirmation of the fall event to a local wireless hub in response to detecting the fall event; and, remotely from the wearable device, inputting the corpus of sensor data into the complete fall detection model—stored remotely from the wearable device—to confirm the fall event and dispatching a care provider to assist the resident in response to confirming the fall event.

Abstract: One variation of a method for detecting and handling falls by residents of a facility includes: receiving a notification for a fall event from a first resident wearable device associated with a resident; determining a location of the resident within a facility at a time of the fall; in response to the notification, distributing a fall response prompt to a set of computing devices, each computing device associated with a care provider; and, in response to proximity of the first computing device to the first resident wearable device, authorizing edit permissions for an electronic incident report by a first care provider exclusive of a second care provider.

Abstract: One variation of a method for detecting breach events by residents of an assisted living facility includes: defining an access perimeter containing a first space and excluding a second space within a facility, the first space and the second space separated by a door; assigning the first individual access perimeter to a first resident, in a set of residents, occupying the facility; maintaining the door in an unlocked state by default during a first period of time; tracking locations of resident wearable devices associated with residents, in the set of residents, within the facility during the first period of time; and, in response to a first location of a first resident wearable device associated with the first resident falling inside the individual access perimeter and within a threshold distance of the door at a first time during the first period of time, triggering the door to enter a locked state.

Abstract: One variation of a method for detecting and responding to falls by residents within a facility includes: at a wearable device worn by a resident, writing sensor data from a sensor integrated into the wearable device to a buffer, inputting sensor data into a compressed fall detection model—defining a compressed form of a complete fall detection model and stored locally on the wearable device—to detect a fall event at a first time, and transmitting a corpus of sensor data from the buffer and a cue for confirmation of the fall event to a local wireless hub in response to detecting the fall event; and, remotely from the wearable device, inputting the corpus of sensor data into the complete fall detection model—stored remotely from the wearable device—to confirm the fall event and dispatching a care provider to assist the resident in response to confirming the fall event.

Abstract: One variation of a method for detecting and handling falls by residents of a facility includes: receiving a notification for a fall event from a resident wearable device associated with a resident; determining a location of the resident within a facility at a time of the fall; in response to the notification, distributing a fall response prompt to a set of computing devices, each computing device associated with a care provider; in response to receipt of a fall response confirmation from a first computing device, deescalating the fall response prompt at a second computing device; and, in response to proximity of the first computing device to the resident wearable device, authorizing edit permissions for an electronic incident report by a first care provider exclusive of a second care provider.

Abstract: A method for using electrical stimulation for cerebral network analysis. A first source localization procedure is performed, including a first source measurement procedure which produces first source measurement data, using the first source measurement data to find a solution to a first ill-posed problem which provides a first estimated location of the source. The body is electrically stimulated by targeting the first estimated location, and a second, fast source measurement procedure producing second source measurement data is performed thereafter while measurable effects of the step of stimulating, on the source, still remain. The second source measurement data are compared with the first source measurement data for assessing an extent to which the first estimated location is correct.