Patent application number | Description | Published |
20110246123 | PERSONAL STATUS MONITORING - A method for monitoring kinetic motion includes: capturing acceleration data of a human body of interest from a plurality of points on the human body of interest; using the plurality of points that correlate to parts of the human body of interest to determine a position or view of the human body of interest, wherein the position or view includes a kinetic signature comprising motion characteristics; and displaying a live representation of the human body of interest by using the determined position or view of the human body of interest. | 10-06-2011 |
20120094600 | PLATFORM FOR PATIENT MONITORING - A gateway device includes a transceiver in electrical communication with a processor, the transceiver being configured to communicate over a wireless network to both receive data from at least one body-worn sensor and transmit the data, and a plurality of indicator lights in electrical communication with the processor. A first of the indicator lights indicates successful power-on of the gateway device. A second of the indicator lights indicates establishment of a Bluetooth connection with a body-worn sensor. A third of the indicator lights indicates successful creation of a WiFi connection. A fourth of the indicator lights indicate successful creation of a cellular connection. | 04-19-2012 |
20120096367 | ADAPTIVE DISPLAY FOR PATIENT MONITORING - A system for displaying physiological parameters includes: a central processing unit (CPU) that is configured to control operation of a monitor device; a display screen; and a set of one or more computer readable data storage media storing software instructions that, when executed by the CPU, cause the monitor device to: detect a device that is added to the system, the device being used to measure at least one physiological parameter associated with a patient; provision the device; allow a user to select a skin defining a layout for displaying data associated with the physiological parameter measured by the device; allow the user to select a position of a window displaying the skin, the position selected from one of a plurality of cells on a matrix displayed on the display screen; and display the window on the display screen at the position. | 04-19-2012 |
20120101349 | PULSE OXIMETER - A pulse oximeter includes a housing defined by at least a first housing portion and a second housing portion wherein the second portion includes a passage. A sensor module disposed in the housing and proximate the passage includes at least one light emitting diode and at least one photodetector. A processing module also disposed in the housing and configured to communicate with the sensor module includes at least a processor, a network interface, and a power supply. The pulse oximeter further includes a pad having at least a bottom surface and a pad passage, as well as an adhesive configured to be disposed on at least a portion of the bottom surface of the pad. The housing is configured to releasably engage the pad wherein the housing passage and the pad passage are substantially aligned with one another. | 04-26-2012 |
20130166903 | Communication of Information between a Plurality of Network Elements - A communications protocol interface may be configured as being divisible into a core portion and an extensible portion. The extensible portion of the communications protocol interface may be further configured so that each network element can communicate a unique and optimally small subset of actual interoperable data that corresponds to at least a portion of a larger defined data set. A software generator program may be configured to generate a set of extensible source code that operates upon the subset of actual data and that directs the execution of the extensible portion of the communications protocol interface for a particular network element. | 06-27-2013 |
20140297803 | Dynamic Medical Object Information Base - A dynamic medical object information base (DMOIB) is used with a communication protocol. A medical object information base (MOIB) may generally define rules of creation and modification of data defined for use in medical products. A dynamic version of the MOIB adapts to changing data classifications. DMOIB is preferably compatible with non-dynamic MOIB systems. DMOIB preferably reduces code space and simplifies management of software projects. DMOIB may allow for an entirely dynamic system using a discovery/negotiation process for determining full features of a device. DMOIB may also allow for generation of a dynamic interface to handle data from devices. | 10-02-2014 |
20150220619 | SYSTEMS, APPARATUSES AND METHODS FOR COMMUNICATION FLOW MODIFICATION - An apparatus includes a user interface module configured to receive user information associated with a user. The apparatus also includes a classification module configured to apply a classifier defined within a classification tree to the user information, and to calculate a classification score representing an estimated likelihood that the user is associated with at least one user type. The classification module is also configured to classify the user to an identified user type based on the classification score. The apparatus also includes a database configured to store at least one of user account information associated with the user, historical information associated with the user, or historical information associated with a group of users including the user. The apparatus also includes an interface generation module configured to generate a signal based on the information in the database, the signal specifying a user interface to be presented to the user. | 08-06-2015 |
20150334474 | PLATFORM FOR PATIENT MONITORING - A system for storing data collected by a body-worn sensor includes a central processing unit (CPU) that is configured to control operation of a gateway device; and one or more computer readable data storage media storing software instructions that, when executed by the CPU, cause the gateway device to: receive a MAC address of a new sensor and a protocol version associated with the new sensor from a server; attempt to contact the new sensor using the protocol version and the MAC address; when a response is received, send the response to the server for validation; when the response is validated by the server, establish communications with the new sensor; and forward data from the new sensor to a second server. | 11-19-2015 |