Abstract: The disclosure presents a system for remotely managing emergency equipment through wireless network and methods to use this system to monitor emergency equipment and deliver emergency information to subscribers. The system for remotely managing emergency equipment includes at least a node, also called as end user emergency equipment, a remote server, and a plurality of direct and indirect subscriber devices. The remote server receives data collected from each node, processes the node data, and sends the processed data to direct and indirect subscribers to manage emergency equipment. The system can improve the efficiency on collision avoidance, emergency warning, and emergency vehicle dispatch management.

Abstract: An electronic apparatus includes a support unit, a movement unit that moves an apparatus supported by the support unit, a communication unit, and a control unit. In a case where a connection for wireless communication to a communication apparatus is established via the communication unit, the control unit controls the movement unit to move the apparatus supported by the support unit. The control unit controls the communication unit to receive information about movement of the communication apparatus from the communication apparatus. The control unit determines whether the support unit is supporting the communication apparatus based on the information about the movement of the communication apparatus.

Abstract: System is built using the particle filter (PF) framework which utilizes data from round trip time (RTT) ranging or BLE signal strength to perform both (1) sensing the environment by using the scan data during measurement phase and (2) detect motion state of the user which it utilized during the motion update phase of PF. To detect the motion state of the user the temporal difference of the received ranging scans is used over which is utilized within the PF framework. The primary advantage of the described technique is that the velocity parameter of the PF can dynamically be updated based on the motion state as estimated using ranging scans.

Abstract: An electronic device performs techniques related generally to implementing biometric authentication. In some examples, a device provides user interfaces for a biometric enrollment process tutorial. In some examples, a device provides user interfaces for aligning a biometric feature for enrollment. In some examples, a device provides user interfaces for enrolling a biometric feature. In some examples, a device provides user interfaces for providing hints during a biometric enrollment process. In some examples, a device provides user interfaces for application-based biometric authentication. In some examples, a device provides user interfaces for autofilling biometrically secured fields. In some examples, a device provides user interfaces for unlocking a device using biometric authentication. In some examples, a device provides user interfaces for retrying biometric authentication. In some examples, a device provides user interfaces for managing transfers using biometric authentication.

Abstract: Various embodiments provide a mobile communication device to sense and collect a user's diagnostic information. A deployable platform mounted on the mobile communication device, receives touch input from a user's finger. At least one sensor mounted on the deployable platform is used to sense one or more properties associated with the touch input. Diagnostic information associated with the one or more touch input properties is collected and a notification describing the diagnostic information is provided using the mobile communication device.

Abstract: An aspect provides a method, including receiving an indication that a tag associated with a real time location system has been detected at a pre-determined location, the detected tag being associated with a patient in a hospital; and assigning a status of the patient based on detection of the tag; and updating a bed availability indication based on detection of the tag. Other aspects are described and claimed.

Abstract: A system and method for monitoring and verifying athlete attendance in a classroom is disclosed. An exemplary embodiment defines a GPS-based fence in association with a classroom as well as defines a class start time and a class end time. GPS coordinates associated with a portable computing device (“PCD”) associated with a given athlete are received and determined to be within a range of coordinates associated with the fence. Also, a time associated with the receiving of the GPS coordinates is determined to be within a window of time comprising the class start time. Subsequently, a picture of a user is captured with a camera of the PCD. Next, from the picture the user is verified to be the given athlete. Finally, the given athlete is marked as “present” within the class.

Abstract: The present invention provides an information processor, a game program, and a game control method. It is able to adjust a repeated frequency of a bonus game easily. An information processing unit 1 comprises a display 2 for displaying a screen and a touch panel 5 for receiving a touch input of a user. The information processing unit 1 displays a displaying area 21 set based on the screen in a map 20 which has a plurality of node icons 22 on the path, displays a current position indicating icon 24, sets the current position based on a certain node icon 22 of the plurality of node icons 22 in a case of the node icon being touched, and displays the displaying area 21 in which the node icon 22 set to be the current position is located in the map 20 in a case of the current position indicating icon 24 being touched.

Abstract: Methods for emergency visualization are disclosed. The methods include a computer-implemented method for interactive emergency visualization that includes receiving a notification concerning an incident associated with a multi-floor structure, requesting location information from a user device geographically associated with the multi-floor structure, and receiving, in response to the request, a beacon identifier from the user device, the beacon identifier being associated with a beacon disposed within the multi-floor structure. The method also includes determining on which floor of the multi-floor structure the user device is located based on the beacon identifier and stored information indicating the location of the beacon and displaying a graphical map of the multi-floor structure and information indicating the specific floor on which the user device is located.

Abstract: The present disclosure generally relates to systems and methods for monitoring for and preempting pre-identified restriction violation-related behavior(s) of persons under restriction.

Abstract: An assistance data transmission method, a device, and a system are provided. The method includes: obtaining, by a network device, assistance data from a positioning data center; and sending the assistance data to a terminal device in a broadcast manner, where the assistance data is data used by the terminal device to perform positioning. The assistance data is broadcast to the terminal device in the broadcast manner.

Abstract: Methods and apparatus, including computer program products, are provided for remote monitoring. In some example implementations, there is provided a method. The method may include receiving, at a remote monitor, a notification message representative of an event detected, by a server, from analyte sensor data obtained from a receiver monitoring an analyte state of a host; presenting, at the remote monitor, the notification message to activate the remote monitor, wherein the remote monitor is configured by the server to receive the notification message to augment the receiver monitoring of the analyte state of the host; accessing, by the remote monitor, the server, in response to the presenting of the notification message; and receiving, in response to the accessing, information including at least the analyte sensor data. Related systems, methods, and articles of manufacture are also disclosed.

Abstract: An asset management system can include one or more beacons, a remote computing system, and a program. The asset tracking method can include operating the beacon according to programmable instructions, and can additionally or alternatively learn to detect events.

Abstract: A system for loss prevention and loss recovery of portable electronic devices. The system includes a server administered by an administrator, a software application executable on a portable electronic device in communication with the server, a unique registration identifier associated with the portable electronic device, and a distance tracking device. The association between the portable electronic device and the unique registration identifier is stored on the server. The software application is configured to connect to the distance tracking device. The distance tracking device is configured to provide a notification when the distance tracking device is further than a predetermined boundary from the portable electronic device. When the unique registration identifier is entered at a website associated with the server, return delivery information is provided.

Abstract: A system and method for determining at least one zone associated with automatic control of a barrier that include determining a traveling direction of a vehicle with respect to the barrier. The system and method also include determining at least one dynamic status zone associated with the barrier based on the traveling direction of the vehicle. The system and method additionally include determining at least one barrier control zone associated with the barrier based on the at least one dynamic status zone.

Abstract: A mobile device may identify nearby locations, such as locations of a merchant. The mobile device may create local geofences around the nearby locations. The mobile device may create an exit geofence which includes all of the local geofences. In response to the mobile device entering one of the local geofences, the mobile device may provide a notification regarding the location. In response to the mobile device leaving the exit geofence, the mobile device may identify nearby locations based on the new location of the mobile device, and the mobile device may create new local geofences for the current nearby locations, as well as a new exit geofence.

Abstract: A method and system are provided for parallactically synced acquisition of images about a common target from mutually displaced imaging positions. At least first and second imaging devices are disposed respectively at first and second imaging positions. The first imaging device is actuated to acquire a first image with a target of interest disposed at a predetermined relative position within a field of view thereof. The second imaging device is actuated to acquire a second image with the target of interest disposed within a field of view thereof. A target feature finder is executed in a processer to detect the target of interest within the second image. A plurality of user prompts are generated at the second imaging device responsive to detection of the target of interest in the second image.

Abstract: An intelligent tracking system generally includes one or more tracking devices, some of which may be passive tracking devices. Each passive tracking device includes one or more transceivers and is energized by an energizing signal. Some of these passive tracking devices may operate in a first communication mode or a second communication mode based on the energizing signal. Some tracking devices may include encryption modules or authentication modules. Some of these devices may incorporate a bulk acoustic wave oscillator.

Abstract: The present disclosure generally relates to systems and methods for developing, monitoring, and enforcing agreements, understandings, and/or contracts (e.g., legal, technical, and social agreements, understandings, and/or contracts, legal, common law, or “handshake-like” agreements, etc.), such as by using behaviors and/or actions (e.g., pre-identified behaviors, pre-emptive actions, etc.) determined via one or more different devices, sensors, sensor arrays, and/or communications networks (e.g., the Internet of Things (IOT), social networks, etc.).

Abstract: The present invention extends to systems and methods for notifying entities of relevant events notifying entities of relevant events removing private information. A privacy infrastructure can apply data privacy operations to user information prior to, during, or after any of signal ingestion, event detection, or event notification. An entity defines a rule formula that is triggered when one or more detected events match the rule formula including defining one or more event types and one or more locations types. One or more events are detected. User information is detected in one of the events. The privacy infrastructure applies a data privacy operation on the user information. It is determined that the one or events satisfies the rule formula subsequent to applying the data privacy operation.

Abstract: A system and a method for locating an animal in area no matter what type of communications that are present where the animal is located utilizing a smart collar. The smart collar communicates via different type of signals and a system and method are used to operate the smart collar in the most efficient mode in order to prolong the operating life of smart collar battery.

Abstract: A mobile device determines based on a signal strength threshold when tracking devices communicatively coupled to the mobile device are lost or left behind. The mobile device communicatively couples to a tracking device and receives a first signal transmitted by the tracking device with a signal strength greater than a signal strength threshold. The mobile device receives a second signal transmitted by the tracking device and determines a measure of signal strength based on the second signal. While the mobile device is still communicatively coupled to the tracking device, and responsive to determining that the measure of signal strength of the second signal is less than the signal strength threshold, the mobile device generates a notification that the tracking device may be lost or left behind to alert the user of the mobile device.

Abstract: Embodiments of the present disclosure include an efficient and accurate method for presenting victim locations to emergency responders. The method disclosed can be used to track individuals still remaining in a building in case of an emergency. The method comprises determining a location for an individual by receiving a device identifier (e.g., combination of numbers and/or characters uniquely identifying a receiving device associated with the individual) and location information, received from one or more beacons, from the receiving device. The method comprises determining a first location associated with the receiving device based on the location information and/or the device identifier. The method comprises determining different locations associated with the individual as the individual moves and determining whether the individual is still within the building. The method comprises, displaying location information and instructions to reach the individual in case of an emergency.

Abstract: In this disclosure, a person may be identified by: (i) receiving a first message comprising an ID of a first device and a hardware ID of a personal emergency device; (ii) linking the personal emergency device with personal data of the person, the personal data being associated with the ID of the first device; and (ii) receiving a second message from a mobile device comprising the hardware ID of the personal emergency device. In response to receiving the second message, and/or receiving a subsequent message received via the mobile device and comprising the hardware ID of the personal emergency device, a message is transmitted to a monitoring station based on the prior association of the personal data with the hardware ID of the personal emergency device. The message includes the personal data or an identifier for identifying said personal data.

Abstract: A wireless location assisted zone guidance system incorporates dynamically variable intervals between sequential position requests. Variables used to influence the duration of a current interval between sequential position requests include: location within a current zone; displacement rate within a zone; and output from sensors such as secondary low power location sensors, inertial sensors, and biometric sensors. Preferably, the sensors are not being used to try to determine precise position, but instead to indicate a degree of uncertainty in the current position. When this degree of uncertainty is sufficient to merit added processing and associated energy consumption, a new wireless location determination will be made.

Abstract: Disclosed is a 5G or pre-5G communication system for supporting a data transmission rate higher than that of a 4G communication system such as LTE, ultra-reliability and low latency, and large-scale device communication. A method for providing an emergency service according to one embodiment of the present disclosure comprises the steps of: receiving an emergency message; analyzing the received emergency message and extracting emergency-related information therefrom; acquiring emergency notification content, which corresponds to the extracted emergency-related information, among a plurality of emergency notification contents pre-stored in an electronic device; and providing the acquired emergency notification content. In addition, other embodiments are possible in the present disclosure.

Abstract: A method for maintaining possession of a firearm includes the steps of transmitting a signal between a first transceiver coupled to a firearm and a second transceiver of a secondary carry implement. The secondary carry implement has an alert component. The alert component is activated when a predetermined proximity between the firearm and the secondary carry component is exceeded. The predetermined proximity is inferred from signal strength from the first transceiver that is detected by the second transceiver.

Abstract: A wireless RF tracking system comprising a transmitter (tag) and a receiver, the transmitter having a motion sensor, an RF communication module and a processor. The system has an algorithm configured to send a data ping from the transmitter via the RF communication module to the receiver, the algorithm being a smart location algorithm including both event-based ping methodology and time-based ping methodology. The system additional utilizes a geofencing system to expand the area around the smart location.

Abstract: The present disclosure provides an automatic loading and unloading system that is adaptable for an array of freight sizes, trucks and/or trailers. In some examples, the automatic loading and unloading may inventory the parcels scheduled for delivery, identify the dimensions of the parcels, and plot a loading configuration that maximizes the use of the truck or trailer. Based on the plotting, the automatic loading and unloading system may direct the automated guided vehicles (e.g., automatic forklifts) to the parcels scheduled for delivery. The automated guided vehicles may utilize the information received from the automatic loading and unloading system to identify a route from the parcel's storage location in the warehouse, for example, to the plotted position in the truck or trailer.

Abstract: A rear occupant alert method for a vehicle may include: before a door opening or closing event of the vehicle, sensing a master fob and a slave fob through low frequency (LF) antennas in the vehicle to obtain first position information of the master fob and the slave fob; after the door opening or closing event of the vehicle, sensing the master fob and the slave fob through the LF antennas to obtain second position information of the master fob and the slave fob; determining positions of the master fob and the slave fob, respectively, by comparing the first position information of the master fob and the slave fob with the second position information of the master fob and the slave fob; and performing a rear occupant alert function in accordance with the determined positions of the master fob and the slave fob.

Abstract: An electronic tracking device comprising: a first power cell positioned on a first portion of a substrate; a second power cell positioned on a second portion of the substrate, the second power cell being spaced apart from the first power cell by a gap; the substrate comprising a flexible printed circuit board having a flexure disposed along a central transverse axis of the substrate between the first portion and the second portion of the substrate, the flexure being bendable to allow the first portion to move relative to the second portion between a first configuration wherein the first portion is substantially coplanar with the second portion of the substrate and a second configuration wherein the first portion and the second portion of the substrate forms an angle of greater than or less than about 180 degrees, wherein, in the first configuration, a center of mass of the electronic tracking device is located in the gap between the first power cell and the second power cell.

Abstract: The method, computer program product and computer system may include computing device which may create a user profile based on user data associated with a user and animal data associated with the user's service animal. The computing device may receive a destination input and determine one or more routes to the input destination, the one or more routes each being associated with a set of route commands. The computing device may receive a route selection and translate the set of route commands associated with the selected route into a set of service animal command signals. The computing device may transmit a first service animal command signal from the set of service animal command signals to a signal device, the signal device being attached to the user's service animal and generate an output by the signal device corresponding with the first service animal command signal.

Abstract: A location-based notification application may generate a location based notification on a client device based on a location of the client device and data stored within the client device.

Abstract: A method for sending location information continuously of a user in need of rescue and carrying a location tracking device of the disclosure includes determining whether a rescue-needed signal is received, and if so controlling a first positioning module of the location tracking device to send a first positioning signal. Determining whether a power level of the location tracking device is more or less than a predetermined power level and turning off the first positioning module if less. If so, the location tracking device sends a second positioning signal when the power level is less than the predetermined power level, the power consumption of the second positioning module being less than that of the first positioning module. Thereby, transmission of a rescue signal is enabled for an extended period and over a longer distance.

Abstract: A method for detecting allergic reaction and alerting a guardian device includes registering a wearable device to associate the wearable device with the guardian device. The wearable device then monitors vital signs to determine whether the vital signs are within an acceptable range. Based on the vital signs being outside the acceptable range, the wearable device sends an alert to the guardian device and determines whether a confirmation signal is received from the guardian device.

Abstract: The disclosure is directed toward a communication system having a mobile device using a gesture-based user interface. The mobile device may include a user interface that is configured to accept gesture-based commands from a user and relay important information to a responder server during emergency situations.

Abstract: A method includes generating location change information of a computing device in accordance with a location resolution level of a reporting approach and sending the location change information to another computing device in accordance with a location reporting frequency of the reporting approach. The method further includes detecting geo-activity change of the computing device and updating the reporting approach based on the geo-activity change to produce an updated location resolution level and an updated location reporting frequency. The method further includes generating further location change information of the computing device in accordance with the updated location resolution level and sending the further location change information to the other computing device in accordance with the updated location reporting frequency.

Abstract: A system is disclosed comprising a smartphone 2 and an aerosol generation device, such as an electronic cigarette. The smartphone 2 is configured to establish a communicative interaction with the electronic cigarette 4, preferably using a wireless protocol like Bluetooth® so that the devices can exchange data. The smartphone 2 comprises a positioning module, such as a GPS receiver 26, and is adapted to store a position in a data storage unit 28 each time a communicative interaction is established. In this way, the user can retrieve the last stored position from the data storage unit 28 and display it on a map on the smartphone display screen 22 so that they can be assisted in locating the electronic cigarette 4.

Abstract: A Real Time Locating System (RTLS) hygiene management and monitoring system for individuals and companies to manage and monitor the hygiene of their surroundings. In some embodiments of the invention, RTLS is used to monitor and manage cleanliness of rooms and surfaces and the location of cleaning supplies and cleaning personnel. The invention provides improved efficiency and quality of hygiene services. For instance, the invention can enable prioritization of cleaning, improve efficient use of cleaning supplies and cleaning personnel, track short and long term cleaning operations, and provide insight into ineffective cleaning.

Abstract: A method for controlling access to a facility including: sending a first signal from a handset to a plurality of beacon modules using a low energy wireless technology, the signal comprising an identification of the handset or a user; determining received signal strength indication from each of the plurality of beacon modules and determining a time averaged received signal strength indication from each of the plurality of beacon modules.

Abstract: A process for signaling an accident by at least one drone, the process involving acquiring a location of the place of the accident; calculating the coordinates of at least one signaling position; signaling the accident in accordance with a combination of the location of the place of the accident and the calculated coordinates of the at least one position.

Abstract: A method for communicating among responders from a plurality of responder agencies includes determining that responders from two responder agencies are located at an event or location. Each of the responders from the two responder agencies has a computing device that is configured to communicate with the other computing device of the responders. Authorization is received from the two responder agencies to permit direct communication between responders from the two responder agencies. A communication link is established between the computing devices of the responders of the two responder agencies in response to determining that the responders from the two responder agencies are located at the event or location and in response to receiving the authorization. The communication link permits direct communication between the responders of the two responder agencies.

Abstract: A device can receive message data associated with a vehicle tracking unit (VTU). The device can identify, based on the message data, the VTU as an inactive VTU. The device can compute a feature vector, associated with the VTU, based on the message data and on environmental data associated with the VTU. The feature vector can be computed based on identifying the VTU as an inactive VTU. The device can determine, using an inactivity classification model, an inactivity classification associated with the VTU. The inactivity classification can be determined based on providing the feature vector, associated with the VTU, as an input to the inactivity classification model. The device can cause an inactivity action to be performed based on the inactivity classification.

Abstract: Systems, devices, and techniques described herein are directed to a tactical wireless base station, and applications thereof. A tactical wireless base station may include a plurality of hardware or software radios configured to facilitate communication over any wireless protocol. The tactical wireless base station may be deployed on an unmanned aerial vehicle (UAV) to search for a wireless signal of a target user equipment (UE) corresponding to a lost hiker, for example, in an area out of range of traditional base stations, and/or to locate the target UE to convey the location to rescuers. In some instances, a tactical wireless base station can be deployed in a handheld device and may coordinate with other tactical wireless base stations in order to triangulate a location of user equipment. Further, the tactical wireless base stations may be deployed during network outages to provide indications of events, such as during emergencies.

Abstract: In one embodiment, a request to share a message is received from a first user. The request includes a first location, the message, and note-access criteria for sharing the message based on one or more groups of second users. A particular second user is identified having a second location that is within a threshold distance of the first location. Based on the note-access criteria and one or more groups associated with the particular second user, it is determined that the message should be shared with the particular second user, the message is sent to the particular second user, and a location of the first user is determined to be within a predetermined distance from the first location. If the first user is currently within the predetermined distance, a notification is sent to the first user informing the first user that the message was sent to the particular second user.

Abstract: Systems and methods for determining a foreground application and at least one background application from multiple graphics applications executing within an execution environment are disclosed. Pixel data rendered by the foreground application may be displayed in the execution environment while a rendering thread of the background application may be paused.

Abstract: Embodiments include a computer program product for using a biosensor worn by a user to trigger an event and activate a camera worn by the user to begin streaming and/or recording video data. The biosensor trigger also initiates a real time multimedia collaboration session with the user wearing the biosensor and one or more designated parties. Through an interoperability gateway device, a voice communications device of the user is bridged with voice communications devices of the designated parties, and the video data is electronically transmitted to the designated parties. Thus, the designated parties may have real time voice communications among each other and with the user, and the designated parties may also view the video data in real time. Embodiments also determine when an event has ended and deactivates the camera worn by the user.

Abstract: A monitoring system includes one or more monitoring devices configured to detect conditions related to a monitored person and an artificial intelligence module configured to analyze historical information related to conditions of the monitored person and current information related to conditions of the monitored person and determine whether to generate an alert signal based on the analysis. The artificial intelligence module may also be configured to update the historical information related to the conditions of the monitored person based on the current information and responses to the alert signals. The system includes a moveable sensor and a monitored-person identification subsystem.

Abstract: Contemplated systems and methods provide an integration platform to facilitate the exchange of information between RFID tagged objects and non-RFID systems. In especially preferred aspects, RFID tagged objects include patients, personnel, and assets of a healthcare facility, while preferred non-RFID systems include asset management systems, timekeeping systems, electronic medical records systems, and hospital and pharmacy information systems. Contemplated systems and methods will apply rules to associate RFID information with events, which will then be correlated with appropriate steps that can be effected in a varied and automated manner. In further preferred aspects, RFID technology is employed to upgrade patient telemetry to provide positional information the hospital system.

Abstract: Activities, actions and events during user performance of physical activity may be detected using various algorithms and templates. Templates may include an arrangement of one or more states that may identify particular event types and timing between events. Templates may be specific to a particular type of activity (e.g., types of sports, drills, events, etc.), user, terrain, time of day and the like.