Abstract: A system and method are disclosed that are able to identify and distinguish persons as soon as they enter or exit a hospital room or any room occupied by a patient who is receiving medical or dental services. After a person who has entered a hospital room has been identified, this person may be required to sanitize his/her hands in order to comply with an established protocol. Therefore, a second identification may take place at the hand sanitization station. The system may confirm that the same person was identified by a first read by the RFID antennas upon entering the room and by a second read by the RFID antennas upon completing the hand sanitization procedure. If no hand sanitization takes place, visual and/or auditory stimuli may be generated as a reminder. Persons and their hand sanitization performances may be used diagnostically to identify and remedy potential contamination events and/or determine the source and mode of transmission of a nosocomial infection.

Abstract: An approach is provided for remote healthy caring and monitoring through data transmission and processing. A biological monitoring device comprises a biological sensor, a motion detector, a warning module, a transmitting module and a controller. The biological sensor acquires a biological data from a person. The motion detector senses a variation of acceleration and a variation of angle to acquire a physical condition data. The transmitting module transmits the biological data and the physical condition data to a terminal device. The controller calculates the biological data and the physical condition data based on a predetermined rule, and sends a control signal to trigger a warning module or the transmitting module according to a calculating result. The warning module is configured to send a noticeable signal to inform the person. Therefore, the monitoring range is dynamically adjusted based on the biological and physical of the person.

Abstract: A computer-based system for monitoring product usage, value, and suitability for use or sale. The system can include one or more processors configured to process and manage data. Additionally, the system can also include product packaging comprising a machine-readable medium. Notably, the machine-readable medium can comprise product information among other types of information. The one or more processors can be configured for receiving the product information of the machine-readable medium. The machine-readable medium and corresponding medication information can be adjusted based on automated signals or interactive signals, where the signals are generated based on current or historical data regarding the product or the packaging.

Abstract: A pump for delivering insulin to a user comprises a pump mechanism, an alarm and a timer and an alarm program in data communication with the alarm and the timer. The alarm program module is programmed to operate a plurality of types of alerts and to associate a predetermined interval of time and a predetermined event with a selected type of alert. An alarm signal can be generated by the alarm program module based on the predetermined event and interval.

Abstract: Embodiments of the present invention provide systems and methods for wirelessly programming a prescription bottle cap. In an embodiment, the system includes a base station comprising an inductor and processor configured to receive prescription dosage instructions and instruct the inductor to alter a magnetic field in a manner representative of the prescription dosage instructions. In an embodiment, the system further includes a wirelessly programmable cap comprising a sensor configured to detect the magnetic field and to generate the prescription dosage information based on the magnetic field. A control unit is configured to instruct the wirelessly programmable cap to send an alert at a time designated by the prescription dosage information.

Abstract: A method of forming a non-linear path of at least a portion of at least one electrically conducting wire extending between a first location and a second location. The method includes the steps of forming a wire path template defining a non-linear path, winding said wire through said template such that said wire adopts said non-linear path, connecting the wire to a feedthrough member, wherein the feedthrough member is configured to provide an electrical connection through a wall of an implantable component implantable in a recipient along with the wire, and removing the wire from the template.

Abstract: A system and method for monitoring the state of an individual, in which a biological sensor is attached to the individual, and a wireless transmitter is attached to the sensor via a microprocessor. The transmitter transmits any changes in the biological state of the individual to a remote receiver. The remote receiver can be programmed to automatically send an alert to various entities, which can then send assistance.

Abstract: Provided are a method and system for implementing alarms for a medical device through a mobile device. The method includes: storing details of examination of a specimen (hereinafter, referred to as examination details) in the medical device, wherein the storing is performed by the medical device; accessing the medical device and establishing a connection with the medical device, wherein the accessing and the establishing of the connection is performed by the mobile device; reading the examination details stored in the medical device, wherein the reading is performed by the mobile device; analyzing the read examination details, wherein the analyzing is performed by the mobile device; and implementing an alarm if the result of analysis satisfies a predetermined criterion, wherein the implementing is performed by the mobile device.

Abstract: An approach is provided for collecting and processing biometric information associated with a user of a body-mounted device to determine a status of the user. The approach involves causing biometric information to be collected by way of a body-mounted device. The approach further involves causing the biometric information to be communicated to a network management system. The approach additionally involves causing one or more of the network management system and the body-mounted device to process the biometric information to determine a status of the user of the body-mounted device, the status including one or more vital signs and an emotional state of the user based on the biometric information. The approach also involves causing the status to be displayed by the body-mounted device.

Abstract: The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The electronic component controls the conductance between the dissimilar materials to produce a unique current signature. The system can be used in a variety of different applications, including as components of ingestible identifiers, such as may be found in ingestible event markers, e.g., pharma-informatics enabled pharmaceutical compositions.

Abstract: A method and device for communicating physiological or control data between a portable device and an information system via telemetry. The system includes at least one portable device, and usually many, each having an I/O port for bidirectionally communicating physiological or control data in the form of IP data packets via telemetry. The portable device in operation includes a layered network interface that supports a standard internet-based networking protocol (IP) stack and PHY and MAC layers. The system also includes an information system connected to a wired network through a networking switch, and having a port for bidirectionally communicating data via telemetry with the portable device. The access point may include a program that converts the IP data packets between the RF PHY and MAC and network, such as Ethernet, PHY and MAC layers and further may include a server such as a BOOTP/DHCP server to support a dynamic assignment of an IP address to a number of portable devices.

Abstract: In summary, the present invention relates to a device, a method, a system and a computer program enabling to ensure a reliable communication even under difficult radio frequency conditions. In case data cannot be successfully communicated by a radio frequency communication, the data may be transmitted to another device by a body-coupled communication via a human or animal body. The other device can act as a relay and forward the data to an intended destination. Thus, data may be successfully transmitted to the intended destination even under difficult radio frequency conditions due to body shadowing or other effects.

Abstract: Configuration technologies for cost-effectively monitoring indicia of regimen compliance or noncompliance in response to one or more indications of symptoms or actions or other data on data-bearing media or in wireless transmissions, such as implementing techniques for providing or preventing access or otherwise acting on or communicating incremental or definitive indicia of compliance or noncompliance.

Abstract: A vital-signs patch for a patient monitoring system that includes a housing containing a sensor that makes physiological measurements of a patient, a transmitter, a receiver, a memory, and a processor. The processor periodically takes a measurement from the sensor, converts the measurement to a data record, and stores the data record in the memory. Upon receipt of a signal from another device, the processor retrieves at least a portion of the data record, converts the retrieved portion of the data record to a vital-sign signal, and causes the transmitter to transmit the vital-sign signal to the other device.

Abstract: A system for using telemetry data based on a user habit information includes one or more sensors coupled to a wearable device that has a unique user ID, and acquires user information selected from of at least one of, a user's activities, behaviors and habit information. The wearable device includes ID circuitry that includes ID storage, a communication system which reads and transmits the unique ID from the ID storage, a power source and a pathway system to route signals through the circuitry. The telemetry system communicates with the one or more sensors. The telemetry system includes a database of user ID's. Telemetry data is analyzed using the telemetry system based on at least one of, user's activities, behaviors and habit information. Personalized information about the user is created.

Abstract: The present invention relates to a data buffer apparatus with wireless transmission function, including a transmission interface module, a memory module, a wireless transmission module and a microprocessor module. The transmission interface module is coupled to a monitoring unit and continuously receives at least one transmission signal data to be stored in the memory module. When the memory module has the transmission signal data, the microprocessor module controls the wireless transmission module to attempts to establish a wireless connection. If the wireless connection is successfully established, the transmission signal data will be sent. If the wireless connection can not be established, it will attempt to establish the wireless connection again after a period of time.

Abstract: Secured communications between patient portable communicators (PPC) and a central authority (CA) via an unsecured network are implemented using software implemented by a communications device. The communications device provides for detecting, using a multiplicity of disparate communication protocols, presence of entities requesting a network connection and determining whether or not each of the entities is a PPC, establishing, only for the entities determined to be PPCs, a connection to the CA via the unsecured network using the disparate communication protocols, authenticating only the PPCs to the CA, and facilitating communication of PPC data between the PPCs and the CA via the communications device and the unsecured network upon successful PPC authentication. The PPC data comprises at least some patient implantable medical device data acquired by the PPCs.

Abstract: An integral locating system for child's drinkware accessories comprises a receiver with a speaker removably attached to a rear portion of each accessory. The speaker is activated by a remotely located transceiver preferably carried by or located adjacent to the parent or care provider. In such a manner, the parent or care provider can depress an activation button on the transceiver to locate the specific article. The article will alert in response period of seconds to allow the parent or care provider to locate it. The receiver unit is removable from the child's drinkware accessory to allow the article to be washed or sterilized. The receiver unit is placed in a central recharging station that accepts the different sized receivers for recharging.

Abstract: An activity meter includes an activity amount acquisition unit that acquires an amount of physical activity of a user, an activity age acquisition unit that acquires an activity age representing a standard age of a person who does a same amount of activity as the activity amount acquired in a unit period, using body information and a basal metabolic rate of the user, and an output processing unit that outputs information relating to the acquired activity age.

Abstract: In a system for protecting a user from injury sustained during sleep, a sensing device is operated to automatically monitor orientation or posture of a user during sleep of the user. A signal is transmitted from the sensing device to a control unit, which is operated to activate an appliance so that the appliance generates an alert signal upon detection by the sensing device and control unit of an undesirable orientation or posture of the user.

Abstract: The system includes a computer-readable memory having a data structure configured to store information about a time-based event for a patient having reduced cognitive abilities, and optionally also electronic data reflecting the patient's cognitive ability. A networked computer system coupled to the computer-readable memory provides an information communicating interface to the patient. The computer system is programmed to monitor context information relevant to the patient and to dynamically adjust the presentation of the stored information based on the context, and optionally also based upon the patient's cognitive ability.

Abstract: A method for disseminating information regarding a problem and administering medical interventions comprises providing a mobile device wirelessly connectable to a network, receiving and storing contact information corresponding to a designated list of information recipients, receiving, via the mobile device, a signal from a user indicating the problem, receiving, via the mobile device, information regarding the problem, transmitting an indication of the problem to a rescue clearinghouse via the network, prompting a participant of the rescue clearinghouse, different from the user, to make a decision about a course of action regarding the problem, and at least one of transmitting the information regarding the problem to the information recipients from the designated list and transmitting the information regarding the problem to a government rescue organization, based at least in part on the decision.

Abstract: An information processing apparatus according to an embodiment includes a communication control unit controlling communication of a radio communication device with a data carrier transmitting a signal including communication distance information regarding a communication distance; an output variable control unit varying transmission output of the radio communication device; and a data carrier determination unit determining that the data carrier having a short communication distance is valid as the transmission output is large, and determining that the data carrier having a long communication distance is valid as the transmission output is small.

Abstract: A method for capturing and monitoring at least one physiological parameter and movement within an area of at least one person are disclosed. The area is divided into cells having respective location identifiers. Each person is provided with a respective device for measuring at least one physiological parameter of the person. The physiological parameter is indicative of whether the person has a physical condition. Each device has a device identifier. The device is used to at least intermittently measure a physiological parameter of the person using the respective device to obtain a physiological parameter reading for each measurement. The physiological parameter reading is associated with the respective device identifier of the device by which, the respective location identifier of the cell in which, and a time at which the physiological parameter reading is obtained. The associated information is stored at a remote location. A system and a physiological parameter device are also disclosed.

Abstract: Computer-based systems and computer-implemented methods are described for monitoring medication events for an individual. Computer-based systems include systems for monitoring medication events relating to an individual, including: circuitry for analyzing data for an identifier of a first medication event for an individual; circuitry for analyzing the data for at least one attribute of an individual; circuitry for analyzing the data for at least one attribute relating to a medication during the first medication event; circuitry for analyzing the data for at least one feature of visual information and at least one feature of non-visual information relating to the individual during the first medication event; circuitry for analyzing the received data for a time associated with the first medication event; circuitry for determining a compliance likelihood for the first medication event based on the analyses of the received data; and circuitry for indicating the determined compliance likelihood.

Abstract: A method of communicating medical sensing data including receiving, at a patient communication system, medical sensing data collected by a medical sensing device during a medical sensing procedure. The method also includes creating, with the patient communication system, a data message, the data message including at least a portion of the medical sensing data, information about the medical sensing procedure, and information about the medical sensing data and transmitting, with the patient communication system, the data message to a centralized computing device over a data network.

Abstract: A medical telemetry system includes: a medical telemeter including: a measuring portion which measures a biological signal of a patient as biological signal data; a communicating portion which wirelessly transmits the biological signal data; and a connection information storing portion which stores connection information; and a receiver including: a non-contact communicating portion which executes first non-contact communication to read the connection information in a non-contact manner; a storage portion which stores the connection information read by the non-contact communicating portion; and a receiving portion which starts reception of the biological signal data transmitted by the communicating portion, when the connection information is stored in the storage portion.

Abstract: A system for relaying data to a repository from a medical device is disclosed. A receiver is configured to receive data from a medical device, where the data can be an indication of a problem with the medical device. A memory is configured to maintain the data once it has been received. A transmission device is configured to send the data to a data repository over a communication medium. A detector is configured to detect conditions of the communication medium that could affect data exchange and send the data based at least in part on the conditions. A processor is configured to send at least a portion of the data based at least in part on a degree of urgency.

Abstract: Gesture-based communication systems and methods for communicating with healthcare personnel are disclosed. According to an aspect, a system is disclosed that includes a movement detector configured to detect movement of muscle and to generate a wireless signal in response to detection of the muscle movement. The system also includes a base station in wireless communication with the movement detector, and configured to implement a predetermined action based on the wireless signal. The base station may be configured to interface with a healthcare call system such as in a hospital environment. The base station may control the healthcare call system to communicate a notification signal based on the wireless signal.

Abstract: A method and system are provided for evaluating in patient monitoring whether a signal is sensed optimally by receiving a signal, transforming the signal using a wavelet transform, generating a scalogram based at least in part on the transformed signal, identifying a pulse band in the scalogram, identifying a characteristic of the pulse band, determining, based on the characteristic of the pulse band, whether the signal is sensed optimally; and triggering an event. The characteristics of the pulse band and scalogram may be used to provide an indication of monitoring conditions.

Abstract: A radio frequency identification (RFID) transponder for use in dentures is provided. The RFID transponder includes a passive RFID microchip configured for storing information related to a denture and a loop dipole antenna configured for sending the information in response to receiving a signal from an RFID reader. The loop dipole antenna in turn includes a wire forming a loop structure and a set of dipole arms going out from the loop structure. Each end of the set of dipole arms is folded at least once to form at least one meander and the dipole arms follow a shape of the denture. The RFID transponder also includes at least one tuning patch configured for tuning input impedance of the loop dipole antenna. The RFID transponder is embedded in the denture and the passive RFID microchip is electrically coupled to the loop structure.

Abstract: A body function analysis and communication system includes a plurality of wireless communication devices each worn or carried by a respective user and in signal communication with an analysis system. Each wireless communication device is in signal communication with at least one sensor worn by the respective user. The analysis system is configured to determine anomalous response of measurements of the at least one sensor worn by at least one user based on measurements from the plurality of sensors.

Abstract: A zone location system with ultrasound US transmitters S1, S2, S3 located in respective zones Z1, Z2, Z3 such as rooms of a building B. Preferably, the US transmitters are time-multiplexed so that each of them in turn transmits a US signal US with a unique ID code USID represented therein. The portable tag PT includes an ultrasound receiver USR arranged to receive the US signal. Based on the received US signal, the portable tag PT measures a strength of the received US signal. The portable tag PT also measures a parameter related to a movement of the portable tag PT, e.g. a Doppler shift based on the received US signal. Further, the portable tag extracts the USID. Then it transmits a wireless Radio Frequency signal RFS with its own ID PTID, the USID and first and second data values D1, D2 representing the signal strength and the movement related parameters.

Abstract: The disclosed invention provides a system and apparatus for providing a telematics system user with an improved texting experience. A messaging experience engine database enables voice avatar/personality selection, acronym conversion, shorthand conversion, and custom audio and video mapping. As an interpreter of the messaging content that is passed through the telematics system, the system eliminates the need for a user to manually manipulate a texting device, or to read such a device. The system recognizes functional content and executes actions based on the identified functional content.

Abstract: Methods, systems, and products track equipment used during surgical procedures. An allowable zone associated with a surgical procedure is identified. The allowable zone determines where surgical items may be used during the procedure. A location of a surgical item is determined. When the location is outside the allowable zone, an alarm is triggered to indicate the surgical item is moving outside the allowable zone towards an area in which the surgical item may not be used.

Abstract: A convulsive seizure detection and notification device includes an acceleration module to measure acceleration of a body part of a user and generate acceleration measurement values, a storage to store a first threshold value and a second threshold value, and a data processor to compare acceleration measurement data with the first and second threshold values and generate a signal if a predetermined relationship between the acceleration measurement data and the first and second threshold values is satisfied.

Abstract: A system and method is provided for handling data in wireless communication devices where data may be captured and linked to a personal journal via indexing and mapping of context data tags abstracted from captured data. The captured data may be retrieved by matching a query to one or more context data tags indexed and mapped to the personal journal. A user preference utilizing one or more of the context data tags linked to the personal journal may facilitate captured data retrieval. The captured data may include multimedia data of an event pre-tagged with indexed information such as user ID, time, date, location and environmental condition or optionally one or more user's biometric data in response to the event. The pre-tagged captured data may be stored in the local host device or transferred to a remote host or storage for later retrieval or post processing.

Abstract: There is provided a method of operating a fall detector, the method comprising, on detecting a fall event by a user of the fall detector, measuring at least one physiological characteristic of the user; and using the measurement of the at least one physiological characteristic to determine whether to expedite an alert that the user has fallen. An apparatus comprising a processor that is configured to perform the method described above is also provided.

Abstract: A system includes a local patient monitor and a plurality of remote patient monitors. The local patient monitor may display a plurality of physiological parameters for a local patient. The local patient monitor may further display a remote monitoring interface with the local patient's physiological parameters. The remote monitoring interface may include a plurality of status icons respectively representing the plurality of remote patient monitors. In one embodiment, the local patient monitor receives alarm information from a first remote patient monitor indicating that one or more physiological parameters for a remote patient are outside of a determined range. The alarm information may include, for example, location information for the remote patient and an alarm condition indicated by the one or more physiological parameters. The local patient monitor may display the alarm information within the remote monitoring interface.

Abstract: Disclosed are methods and devices that include a therapeutic fluid dispensing device (10) to deliver a therapeutic fluid into a body of a patient. The device includes a controller to control one or more of fluid delivery operations and notification operations, at least one auditory notifier (800) to produce one or more acoustic signals in response to application of one or more activation signals by the controller and a plurality of electrical contacts coupled to the at least one auditory notifier to enable the application of the one or more activation signals to the at least one auditory notifier. The device also includes at least one housing retaining the at least one auditory notifier therein, the at least one housing being structured to resonate at least one of the one or more acoustic signals produced by the at least one auditory notifier in response to application of at least one of the one or more activation signals.

Abstract: A data collection module for a physiological data collection system is a reusable device having a data collection port for connection to a source of physiological data that is in an analog format. The data collection port is in circuit communication with a plurality of bipolar amplifiers. The amplifiers are in circuit communication with a central processing unit provided with analog to digital converters, memory for signal processing and internal USB circuitry. The central processing unit is in circuit communication with a means for storing data and with a means for conveying the data in digital form via at least one of a USB port and a wireless communication system.

Abstract: Methods, computer systems, and computer-storage medium are provided for managing patient alerts using a mobile device. A mobile device associated with a patient caregiver receives a critical alert related to the patient, and the alert is presented on the mobile device. The alert includes important contextual information that enables the caregiver to make a quick assessment of how to effectively address the alert. The alert includes options for accepting the alert or rejecting the alert. Acceptance of the alert enables the caregiver to communicate the alert to selected caregivers that can assist in managing the alert. Rejecting the alert causes the alert to be automatically communicated to additional caregivers associated with patient.

Abstract: A personal emergency device is provided to individuals to allow the individuals to request emergency assistances. The device communicates with a base receiver to indicate the individual has requested assistances. The base receiver then communicates with an emergency system such as e-911 emergency services or a remote care system. The base receiver or the remote care system may forward information to the emergency services to provide first responders with additional information regarding the individual. The information may include personal information such as age and name, and the information may include medical information such as a recent blood pressure, weight, and blood glucose level.

Abstract: An airway pressure support system (2) that includes a pressure generating device (4) structured to produce a flow of gas and a component (8) such as a patient interface device (8) structured to be selectively coupled to the pressure generating device (4), wherein the pressure generating device (4) and the component (8) are structured to enable the component (8) to be to wirelessly identified by the pressure generating device (4) only when the component (8) is coupled to the pressure generating device (4). Also, a method of identifying a component (8) in an airway pressure support system (2) that includes steps of coupling the component (8) to a pressure generating device (4) of the airway pressure support system (2) and enabling the component (8) to be to wirelessly identified by the pressure generating device (4) only when the component (8) is coupled to the pressure generating device.

Abstract: Embodiments of methods of performing a structured collection protocol on a collection device comprise providing a plurality of prior biomarker samples, wherein the prior biomarker samples comprise at least one measured value and plurality of contextualized data components linked to the prior biomarker samples, setting a first criterion, wherein the first criterion classifies prior biomarker samples as similar if prior biomarker samples share at least one identical contextualized data component, grouping biomarker samples that are determined to be similar based on the first criterion, calculating expected values for future biomarker samples which satisfy the first criterion, wherein the calculation is based on at least a subset of the group of similar prior biomarker samples, setting a second criterion, wherein the second criterion is an acceptable variance from the calculated expected values, a threshold, or both, collecting one or more biomarker samples which satisfy the first criterion, and evaluating via t

Abstract: When continuous user biometric information is transmitted to a server device continuously from a handheld device used by a user, the server device can be caused to receive a required measurement value efficiently at a required time, select information desired by the user on the basis of the measurement value and user peripheral information, and provide the user with the information reliably, without imposing excessive communication charges and the like. A server device 140 is used together with a handheld device 110 that transmits the user peripheral information to the server device and receives the information transmitted from the server device.

Abstract: A hospital monitoring system for monitoring hospital personnel, a plurality of patient locations for patients, and associated devices is configured to control the associated devices based on the presence of hospital personnel or alarms.

Abstract: A method, apparatus and computer program product are provided in order to provide timely notification of a medical response service of a subject who may require medical assistance. In the context of a method, information regarding a subject is received from an interface system carried by a head worn device of the subject, such as a helmet worn by the subject. The information provided by the interface system is utilized for non-medical purposes. The method also determines whether the subject is considered to require medical assistance based upon the information regarding the subject. The method may also include causing notification of a medical response service of the subject in an instance in which the subject is considered to require medical assistance.

Abstract: An implantable radio frequency identification (RFID) tag includes a hermetically sealed biocompatible housing for an active implantable medical device (AIMD), an RFID microelectronics chip is disposed within the housing, and a biocompatible antenna extends from the RFID microelectronic chip and exteriorly of the housing. In a preferred form of the invention, the antenna is disposed within a header block of the AIMD, and the RFID chip is disposed within the AIMD housing.

Abstract: Communication between a remote locator and a transponder is used to determine the relative position of the transponder. The transponder and locator each include a transmitter and a receiver. The locator transmits an inquiry in the form of a relatively powerful cyclically encoded signal with repetitive elements, uniquely associated with a target transponder. Periodically, each transponder correlates its coded ID against a possible inquiry signal, determining frequency, phase and framing in the process. Upon a match, the transponder transmits a synthesized response coherent with the received signal. The locator integrates multiple cyclical response elements, allowing low-power transmissions from the transponder. The locator correlates the integrated response, determines round-trip Doppler shift, time-of-flight, and then computes the distance and angle to the transponder. The transponder can be wearable, bionically implanted, or attached to, or embedded in, some object.