Abstract: A marine vessel telematics device comprising: a remote access module configurable to plug into and be in signal communication with the data bus, the remote access module configurable to be in wireless signal communication with a hand held computing device and further configured to transmit to the hand held computing device marine vessel real-world data.

Abstract: Techniques for data-capable band management in association with, for example, an autonomous advisory application and network communication data environment are described. In some examples, a method can detect a signal configured to initiate a synchronization function being transmitted from a wearable computing device to an application, as an example. In some cases, a method can include performing a synchronization function to, for example, transfer data from the wearable computing device to the application. Further, a method can include causing presentation to an interface on a computing device to display information associated with a wearable computing device, as determined by the data transferred to the application, for example, after a synchronization function is performed and/or a type of motion is synchronized.

Abstract: A method for detecting vehicles with cargo in a traffic telematics system comprising at least one radio beacon for radio communication with onboard units (OBUs) carried by vehicles and their cargo. The method including: establishing radio communications between said radio beacon and a first OBU, and between said radio beacon and a second OBU, via radio signals; electronically evaluating said radio signals; and when said evaluation indicates that said first and second OBUs are moving at a limited and constant distance from one another, receiving characteristic data from the first OBU in the radio beacon, transmitting the characteristic data from the radio beacon to the second OBU, and recording the characteristic data in a memory of the second OBU.

Abstract: The present embodiments provide systems and methods for, among others, tracking sensor insertion locations in a continuous analyte monitoring system. Data gathered from sensor sessions can be used in different ways, such as providing a user with a suggested rotation of insertion locations, correlating data from a given sensor session with sensor accuracy and/or sensor session length, and providing a user with a suggested next insertion location based upon past sensor accuracy and/or sensor session length at that location.

Abstract: The present embodiments provide systems and methods for, among others, tracking sensor insertion locations in a continuous analyte monitoring system. Data gathered from sensor sessions can be used in different ways, such as providing a user with a suggested rotation of insertion locations, correlating data from a given sensor session with sensor accuracy and/or sensor session length, and providing a user with a suggested next insertion location based upon past sensor accuracy and/or sensor session length at that location.

Abstract: A data-collecting system includes a host, a data-collecting device and at least one extended data-collecting device. The data-collecting device for collecting environment data generated by an environment-control box includes a port, a collector-processing unit, a first transmit port and a second transmit port. The port is electrically coupled with the environment-control box. The collector-processing unit is electrically coupled with the port. The first transmit port electrically coupled with the collector-processing unit is further electrically coupled to the host via a first transmission cable. The second transmit port is electrically coupled with the collector-processing unit. The extended data-collecting device is electrically coupled with the second transmit port via a second transmission cable so as to collect extended environment data generated by an extended environment-control box.

Abstract: A method of and system for automatically adjusting airflow and sensors for use therewith are disclosed. A sensor assembly includes a first face on an opposite side of the sensor assembly relative to a second face. The assembly includes an electrical plug on the first face and an electrical outlet on the second face. The electrical outlet is of a same type that is complimentary to the electrical plug on the first face. The assembly includes a sensor for sensing a value of an environmental variable in a space and a sensor communication system for transmitting and receiving information. A sensor system includes a plurality of sensor assemblies disposed in a building. Each sensor assembly includes a sensor for sensing a value of an environmental variable of the space within which the sensor is placed. The system determines gradient values for the sensed environmental variable.

Abstract: Portable security and protection cases and enclosures for storage and transport of high value articles susceptible or vulnerable to theft, loss or irreparable damage. The cases and enclosures include reinforced structural shells electronic anti-theft and climate control and monitoring measures, electronic and non-electronic anti-breakage performance characteristics and automated locking and control systems.

Abstract: A smartphone app that causes a smartphone device to actively control a configuration of footwear structural elements located in a footwear sole or removable inner sole insert of a user of the smartphone device, and one or more sensors located in either one or both of the sole or the removable inner sole insert the user's footwear and a sensor including a gyroscope and/or an accelerometer in the smartphone device; and the footwear structural elements being configured for computer control by the smartphone device when the smartphone app is operating on the smartphone device; and wherein instructions of the smartphone app, when executed, cause the smartphone device to, first, process measurement data received from the footwear and smartphone sensors and, second, use the processed measurement data to alter a configuration of the footwear structural elements based on the output from processing measurement data.

Abstract: Embodiments of the invention are directed a data communication system and method for a fleet management system configured to assist with monitoring and managing a fleet of one or more powered machines and one or more human operators.

Abstract: A cardiac electricity and impedance monitoring mobile network terminal device having function of micro current release is provided which includes a baseband processor module, an electrophysiological data collection module, a micro current stimulator module, a keyboard module, a graphics and image display module, an image and picture sensor, a voice communication module, an external data memory card, an external data memory, a short distance digital communication module, a USB interface module, a GPS receiver module, an application module set and run in the operation system of the baseband processor; a cardiac electricity and breast impedance data remote monitoring, a sleep snore data monitoring, a pathological image remote monitoring, a short distance data/information exchange, a medical advisory VoIP voice communication and a network emergency recourse being implemented by the mobile network terminal device under the control of the application program module.

Abstract: Systems and methods are described that can provide a fleet management solution for a fleet of power equipment and other power equipment machines. The fleet management solution can include receiving a wireless signal corresponding to a power equipment machine according to a wireless protocol. The fleet management solution can also include determining a status information corresponding to the power equipment machine based on the wireless signal. The fleet management solution can also include performing an action related to the power equipment machine based on the corresponding status information.

Abstract: A condition monitoring system that diagnoses an abnormality of an apparatus provided in a wind turbine includes a monitoring apparatus including a sensor provided for the apparatus, a monitoring-side control apparatus that sets a threshold value to be used by the monitoring apparatus for diagnosing the abnormality of the apparatus, and diagnoses the abnormality of the apparatus based on the threshold value, and a monitoring terminal that monitors a condition of the apparatus. The condition monitoring system can correctly diagnose an abnormality of the apparatus provided in the wind turbine.

Abstract: A method for wirelessly monitoring physiological data of a patient includes emitting a timing signal from a wireless emitter, receiving a timing signal at a receiver in a wireless patient monitor, recording physiological data from the patient over time at the wireless patient monitor, wherein the time is defined according to the timing signal, and transmitting the physiological data over a wireless network of a healthcare facility. Thereafter, physiological data recorded from two or more wireless patient monitors may be aligned in time according to the timing signal to create an aligned physiological representation for the patient.

Abstract: A can coating machine control system includes a coating control signal that functions as a go/no-go signal based on a plurality of monitored conditions such as can in position, vacuum pressure, gun in position, guard in position and speed condition. Local pressure regulation of the coating material in the spray gun is provided along with optional control of the material temperature. Local pressure regulation allows for optional spray weight control based on a wrap number derived from speed and gun spray durations. A CAN to CAN network buffer is provided as well for primary network isolation. A gun control circuit may be used to select specific gun drive signals and to adjust gun drive signals based on real-time feedback of the actual spray duration.

Abstract: Supply chain systems and methods are disclosed for monitoring fluid levels in liquid containers, such as kegs. Embodiments include sensors that fit within a keg's false bottom, measure the weight of the keg, and transmit the weight information to a computer database via a wireless network. Other embodiments include an RFID device with information about a characteristic of the liquid within a keg (such as brand and/or type of beer) that may be attached to the keg and paired with the sensor so the sensor can transmit information about the characteristic of the liquid in the keg. In alternate embodiments, the sensor's transmitter is short range and an uplink/gateway is used to receive information from the sensor and relay that sensor's information to a broader wireless network. Multiple containers in close proximity may each be fitted with an RFID device and sensor and communicate their individual information to the database.

Abstract: Embodiments of the invention are directed to an equipment data sensor arranged on a powered machine. The equipment data sensor includes a processing device coupled to one or more sensors for obtaining values of at least one parameter associated with running of the powered machine, a memory, and a short range transceiver configured for wireless short range communication arranged to receive short distance communication signals, wherein the processing device is configured to register, in the memory, one or more values of the at least one parameter and an associated operator identifier received over the short range transceiver.

Abstract: An apparatus is provided that includes first and second connection nodes and a communication circuit. The communication circuit is configured to communicate cell-status data of a cell over a bidirectional data path connected to the connection nodes. The communication circuit includes directional drive circuitry configured to communicate the cell-status data over the bi-directional data path by communicating the cell-status data via the first connection node to first-side circuitry in the one direction of the bi-directional data path and, in response to an indication that the bi-directional data path is faulty, by communicating via the second connection node to second-side circuitry along the other direction of the bi-directional data path. The communication circuit also includes a communication-protocol circuit configured to control the directional drive circuitry. The apparatus may be connected in-series with other like apparatuses in the bi-directional data path.

Abstract: The present disclosure describes illustrative, non-limiting embodiments of systems, apparatuses, and methods that can be used to facilitate the remote monitoring and support for manufacturing machines. In one particular embodiment, the techniques may be realized as a method for remote monitoring comprising the steps of storing a measurement taken of an injection molding machine to a machine controller associated with that machine; receiving operation data for the injection molding machine including the stored measurement from the machine controller; and remotely displaying the received data including the stored measurement to a first user at a location distant from the machine.

Abstract: A first medical device can receive a physiological parameter value from a second medical device. The second physiological parameter value may be formatted according to a protocol not used by the first medical device such that the first medical device is not able to process the second physiological parameter value to produce a displayable output value. The first medical device can pass the physiological parameter data from the first medical device to a separate translation module and receive translated parameter data from the translation module at the first medical device. The translated parameter data can be processed for display by the first medical device. The first medical device can output a value from the translated parameter data for display on the first medical device or an auxiliary device.

Abstract: This invention relates to a physiological sensor which acquires pre-programmed data from an electrode or an electrode array using Radio Frequency Identification (RFID) technology. The source of the sensor may be authenticated by means of a wireless interface between an RFID transponder affixed to the electrode array, and an RFID interrogator embedded in the patient interface cable. The criteria for use are then verified to ensure that they are met by the electrode array before beginning signal acquisition. If the criteria are not met, a message is provided to the user via the monitor.

Abstract: A remote water meter monitoring system is provided. A mesh network-type transceiver unit is coupled to a water meter housing having a water counting mechanism inside to transmit water consumption information as well as other sensor information, such as backflow detection, water pressure, and water metrics (e.g., residual chlorine and temperature) to a central server system via a bridge device and a corresponding mesh network. Mechanical energy from the water flowing through the water meter housing is converted to electrical energy via an energy conversion unit. An electrically powered shut off valve is remote addressable via the transceiver unit.

Abstract: A communication system in a mining environment customizes messages and responses to both conserve radio bandwidth and to accommodate different communication terminal types in use. Messages to a loader with a communication terminal having a four line display and four keys may be tailored to the capabilities of the terminal, while a similar message to a foreman terminal with a full keyboard or a tablet touch screen display may include both more detail and a richer set of responses. To save bandwidth, common messages and responses can be pre-loaded onto the communication terminals so that many messages and responses can be transmitted using only the message identifier.

Abstract: A system and method is provided for automatically tracking the presence or absence of multiple assets within a stationary or mobile location and differentiating among groups of assets or individual assets belonging to one or more parties within a single stationary or mobile location using multiple data correction and filtering techniques to provide accurate information to a plurality of users and/or service providers.

Abstract: The invention comprises a profile system and/or a profile matching system. The profile system uses profiles to track one or more of an individual, a piece of property, an event, and/or a business. In the profile matching system, a first profile is linked to a second profile using a matching system. For example, a profile of an individual is matched to a company or a profile of any of: (1) an individual, (2) a group, (3) a piece of property, (4) a cluster of property, (5) an event, and (6) a company is linked to one or more of a person, a good, a location, and/or a business. Matching of profiles allows personalized service to the individual and more efficient use of company resources.

Abstract: A system and method for portable instrumentation is proposed, comprising a server computer and a portable instrument that is wirelessly connectable to the server computer. The portable instrument comprises sensors for performing respective physical or electrochemical measurements, and a hand-held computer that is operably connectable to the sensors. The hand-held computer is configured to record and transmit the measurements to the server computer. The hand-held computer evaluates a real-time wireless connection quality between the portable instrument and the server computer. When the wireless connection quality shows a declining trend, the hand-held computer determines a spatial boundary where the portable instrument reaches a dead zone with wireless connection quality below a predetermined threshold. The hand-held computer then requests pre-recorded data from the server computer to be forwarded to the portable instrument before the portable instrument reaches the spatial boundary.

Abstract: Virtual dipole signal amplification for in-body devices, such as implantable and ingestible devices, is provided. Aspects of the in-body deployable antennas of the invention include antennas configured to go from a first configuration to a second configuration following placement in a living body, e.g., via ingestion or implantation. Embodiments of the in-body devices are configured to emit a detectable signal upon contact with a target physiological site. Also provided are methods of making and using the devices of the invention.

Abstract: The medical device includes a device for the measurement of a health parameter of a patient, a device for capturing a fingerprint identifying the patient, a device for communicating with a remote server and a controller. When the controller is activated by a single action of the patient, the controller activates the device for the measurement of a health parameter of the patient and obtains a measured parameter in return, activates the fingerprint capture device and obtains a fingerprint in return, and then provides the measured parameter and the captured fingerprint to the communication device in order to transmit the measured parameter and the captured fingerprint to the remote server.

Abstract: Methods, systems and compositions that allow for treating a patient according to a patient customized therapeutic regimen are provided. Embodiments of the invention include obtaining dosage administration information from a patient and using the same to tailor a therapeutic regimen for the patient. Embodiments of the invention further include preparing and forwarding to the patient physical pharmaceutical dosages based on the customized therapeutic regimen.

Abstract: A performance measuring system integrated with an article of clothing, the system has a computing unit for coordinating, processing and transmission of sensor data connected to a bus and an antenna. A sensor for measuring performance characteristics is connected to the bus; the bus facilitates transmission and reception of control and data values between the computing unit and the sensor. Also, an antenna is connected to the computing unit for communicating with other computing devices and transmission of sensor data. The other computing devices display the sensor data to a user or forward the sensor data onto another communication media such as the Internet or interactive television. A social networking system sharing athletic statistics using a webservice, a personal processing unit connectible to the webservice, and a computing unit having an activity program for at least one sensor. This system has an activity update service integrally associated with the webservice.

Abstract: A system for enhancement of crop production includes a triggerable seed support package. The triggerable seed support package has a payload including seed enhancement material, where the payload is configured to be released in response to a trigger.

Abstract: An object of the present invention is to reduce the power consumption of a modulation circuit. The modulation circuit includes a load, a diode, and a transistor. An anode of the diode is electrically connected to one terminal of an antenna via the load; a cathode of the diode is electrically connected to one of a source and a drain of the transistor; the other of the source and the drain of the transistor is electrically connected to the other terminal of the antenna; and the transistor is controlled to be turned on or off in accordance with a signal input to a gate of the transistor.

Abstract: Systems, methods, and apparatuses for reducing network congestion in a smart utility meter system are provided. The systems, methods, and apparatuses may include providing, for a utility meter, a first communications interface for communicating with a first network; providing, for the utility meter, a second communications interface for communicating with a second network different from the first network; receiving or generating, by the utility meter, information having a destination; selecting either the first communications interface or the second communications interface; and delivering the information to the destination via the selected communications interface.

Abstract: The invention is directed to a mobile hand held miniature laboratory system in general, and to fluid testing apparatus for performing a parameter measurement in a fluid sample and methods of use in particular. The apparatus comprising: a strip adapted to absorb a fluid sample and to produce a signal indicative of said parameter level in said sample; and adaptor adapted to connect said strip to a smart phone to allow delivery of the produced signal or a correlated signal to said smart phone for obtaining a measurement of said fluid parameter displayed on said smart phone, wherein said testing apparatus relies on said smart phone at least for power supply and display means. The fluid may be a physiological fluid such as blood, urine, saliva or amniotic fluid, or a non-physiological fluid such as fluid obtained from industrial pools for fish or algae growth, or entertainment swimming pools.

Abstract: Medical data acquisition systems and methods for monitoring and diagnosis are disclosed. According to an aspect, a system may include one or more electrodes configured to detect biological data and to convert the detected biological data into a signal. The system may also include a monitor recorder configured to receive the signal and store the detected biological data. Further, the system may include a transceiver configured to wirelessly communicate the biological data.

Abstract: A system and method for setting a warning reference of an advanced driver assistance system are provided. The method includes receiving, by a controller, vehicle information based on a driving condition from a telematics terminal and calculating statistical data for each item of the vehicle information based on the collected vehicle information. In addition, the controller is configured to store the statistical data in a database and calculate at least one time series risk index based on statistical data and a computation weight table stored in the database. The time series risk index is then transmitted to the telematics terminal.

Abstract: An adherent patient device is configured to adhere to the skin of the patient and measure electrocardiogram data, impedance data, accelerometer data, blood oxygen data and temperature data. The adherent device can communicate wirelessly with gateways and a local processor system, such that the patient can wander about the hospital and update the monitoring station with the patient data when the patient is ambulatory. The local processor system can be configured to customize alerts for the patient, for example to notify automatically a specialist in response to a special condition of the patient. The adherent device may comprise a unique adherent device identifier such that the customized alert can be sent based on the unique device identifier. Each of the gateways can be carried and may comprise a unique gateway identifier, such that the unique device identifier and the unique gateway identifier can be used to locate the ambulatory patient.

Abstract: A radiofrequency (“RF”) transmitter site protection system and an RF radiation protection device are provided. The RF radiation protection device includes a control system and a communication module. The control system includes a processor. The communication module is adapted to communicate with a device operable to sense RF radiation and to receive data representative of a level of the RF radiation proximate the RF safety monitoring device from the RF safety monitoring device.

Abstract: To collect data, an electronic device transmits a signal on an output channel of the headset jack to provide an excitation signal to a sensor for measuring a physical quantity. A signal from the sensor is received via an input channel of the headset jack of the electronic device. Data based on the received signal may be sent from the electronic device to a remote location for further processing. The data may be used to detect a physical condition, e.g., a temperature, humidity, soil moisture, sound, vibration, pressure, motion, and/or pollutants.

Abstract: A data communication system including an electronic device including a serial port, a client device including at least an audio port and an interface device is provided. The electronic device is configured to obtain serial data and output the serial data via the serial port. The interface device is coupled between the electronic device and the client device and includes a serial port connected to the serial port of the electronic device, a signal conversion device and an audio port connected to the audio port of the client device, wherein the interface device receives first serial data from the electronic device via the serial port, converts the received first serial data to first audio signals via the signal conversion device, and outputs the first audio signals to the client device via the audio port, such that the client device obtains the serial data according to the first audio signals.

Abstract: This disclosure describes techniques and apparatuses for determining micro-climates based on weather-related sensor data from mobile devices. In some embodiments, current and projected micro-climates can be determined for multiple micro-locations. With these micro-climates a user may better plan his or her day, including what to wear, which path to walk to work, and what activities to plan.

Abstract: Systems and related methods providing for determining activities of individuals are discussed herein. Circuitry may be configured to wirelessly receive tag signals from a plurality of RF location tags. Two or more of the RF location tags may be positioned on an individual, such as at positions that may at least partially define a human frame. The circuitry may be configured to correlate the two or more RF location tags with the individual. Location data for each of the two or more RF location tags may be determined based on the received tag signals. An activity of the individual may be determined based on the location data. In some embodiments, one or more activities involving multiple individuals may be determined based on RF location tags and sensors positioned on each of the multiple individuals. Furthermore, sensor data from the sensors may be communicated over the UWB channel.

Abstract: A method and system for monitoring a location via a called telephony communication device is disclosed. The method at the called telephony communication device includes receiving a request from a calling telephony communication device. Further, the method includes determining whether the received request is for monitoring the location. The method further includes automatically transmitting audio/video data captured via the called telephony communication device to the calling telephony communication device when the received request is determined to be one for monitoring the location.

Abstract: The present invention is directed to an implantable medical device and a method for power management for power efficient use of RF telemetry during, for example, conditions where long periods of continuous monitoring of the device and the patient is desired such as during MRI procedures. A protocol module adapted to, at receipt of a low power protocol indication, activate and use a low power protocol for communication between the device and external units. The protocol module is capable of switching between different communication protocols including a low power communication protocol and a default RF communication protocol depending on, for example, whether continuous long-term monitoring of the patient is performed.

Abstract: A portable unitary device handheld diagnostic device can be operated with minimal power requirement and provides ease of operation as well as low cost communication of diagnostic data from remote locations. The device can provide nucleic-acid based diagnostics with minimal training, little to no sample preparation, and generates diagnostic data in about 45 minutes. A system can enable point of care transmission from any location globally using a low cost satellite-based data link technique, for example, Short Burst Data (SBD), combined with data encoding.

Abstract: There is provided a combination of a portable monitoring device (9) for remotely monitoring a medical device (1) for use in hospitals and the like and having a signal receiver for receiving a first wireless signal, and said medical device (1) in the form of a portable drip infusion set of the type comprising a liquid supply, a drip chamber downstream of said liquid supply for forming liquid drops, a flexible tube connecting said drip chamber with an injection needle and a signal emitter for emitting said first wireless signal. The infusion set (1) and monitoring device (9) each comprise printed circuit boards (PCBs) (33, 23) and comprise mutually interconnectible electric contacts (11, 11a). The infusion set (1) comprises an electronic circuitry that blocks programming of the infusion set (1) when the monitoring device (9) is not electrically connected to the infusion set (1).

Abstract: A telemetry head for communication with an implantable medical device comprises a telemetry antenna and a shield substantially surrounding at least a portion of the antenna, the shield having a coating comprising a ferromagnetic material applied to at least a portion of the shield, wherein the coating is configured to shield at least the portion of the telemetry antenna from electromagnetic interference fields while permitting telemetry signals to pass through the coating.

Abstract: A pest control device system includes a plurality of pest control devices and a data collector. The system may further include the data collector in the form of a gateway that is connected to a data management server via a computer network along with other gateways in corresponding pest control device groups. Each pest control device includes a pest sensor and a wireless communication circuit to transmit information from the corresponding sensor. The devices also configure to define a local wireless communication network that can relay the information from one to the next and ultimately to the data collector.

Abstract: In order to enable monitoring of operating conditions of a plurality of uniaxial eccentric screw pumps with monitoring means installed in a remote site, a remote monitoring system (1) is capable of sending and receiving operating condition detection information items in a communication network (N) established by wireless intercommunication means (10) provided in the uniaxial eccentric screw pumps (100). Further, the operating condition detection information items aggregated to a coordinator (10a) can be sent to the Internet via Internet connection means (30). By this means, a state is achieved in which the operating conditions of the uniaxial eccentric screw pumps (100) can be monitored by monitoring means (50) connected to the Internet.

Abstract: Medical monitor readings (150) are displayed along with an indication of along with the age of the reading. The reading display is changed by altering the intensity of the reading value (210-240), color of the reading value (310-330), a subscript next to the reading (400), a shape of the background (600-700), or icon (FIGS. 6-11) to indicate the age of a presented reading.