Abstract: An apparatus and methods for tracking administering of medication by syringes is provided. The apparatus may include a plunger head for a syringe. The plunger head may include a transducer that sends and receives ultrasonic signals. The plunger may also include an antenna and a microcontroller that interfaces with the transducer and the antenna. The plunger may also include a power source that powers the microcontroller and the transducer. The transducer, the antenna, the microcontroller, and the power source may be at least partially encapsulated in an elastomer housing that fits within a barrel of the syringe. The microcontroller may be programmed with instructions to calculate data representative of the quantity of medication dispensed from the barrel and transmit the data to a remote device via the antenna.

Abstract: An apparatus and methods for tracking administering of medication by syringes is provided. The apparatus may include a plunger head for a syringe. The plunger head may include a transducer that sends and receives ultrasonic signals. The plunger may also include an antenna and a microcontroller that interfaces with the transducer and the antenna. The plunger may also include a power source that powers the microcontroller and the transducer. The transducer, the antenna, the microcontroller, and the power source may be at least partially encapsulated in an elastomer housing that fits within a barrel of the syringe. The microcontroller may be programmed with instructions to calculate data representative of the quantity of medication dispensed from the barrel and transmit the data to a remote device via the antenna.

Abstract: A plunger head for a medication injection device includes a first ultrasonic transducer coupled to emit ultrasonic signals, where the first ultrasonic transducer is oriented within the plunger head to send the ultrasonic signals along a length of a barrel of the medication injection device when the plunger head is disposed in the barrel. A second ultrasonic transducer is disposed within the plunger head and oriented to receive reflections of the ultrasonic signals. A controller is disposed in the plunger head and coupled to the first ultrasonic transducer and the second ultrasonic transducer. The controller includes logic that when executed by the controller causes the controller to perform operations including instructing the first ultrasonic transducer to emit the ultrasonic signals.

Abstract: An apparatus includes a pen body of a drug injection pen including a dosage injection mechanism that produces a rotational motion when the drug injection pen dispenses a fluid. The apparatus also includes a button housing with at least part of a dosage measurement system disposed within the button housing. At least part of the dosage measurement system is coupled to receive the rotational motion from the dosage injection mechanism. The dosage measurement system includes one or more sensors positioned to output a signal in response to the rotational motion when the drug injection pen dispenses a fluid, and a controller coupled to the one or more sensors to receive the signal. A drug delivery control wheel of the drug injection pen is disposed between the body of the drug injection pen and the at least part of the dosage measurement system disposed in the button housing.

Abstract: A drug injection pen includes a housing shaped to accept a cartridge containing a fluid, and a dosage injection mechanism positioned in the housing to produce a rotational motion and force the fluid out of the cartridge when the drug injection pen dispenses the fluid. A dosage measurement system is disposed in the drug injection pen and is coupled to measure a strain induced in a portion of the dosage measurement system. The dosage measurement system outputs a signal indicative of the strain, and the strain on the portion of the dosage measurement system changes when the dosage injection mechanism dispenses the fluid. The dosage measurement system outputs a signal indicative of the strain when the drug injection pen dispenses the fluid. A controller is coupled to the dosage measurement system, and the controller performs operations including recording the signal output from the dosage measurement system.

Abstract: The present disclosure relates to systems and methods for controlling the operational state of a medical device that has a power source. In one implementation, a method is provided for controlling the operational state of the medical device. The method may include periodically measuring at least one variable using a sensor of the medical device and determine, based on the periodically measured at least one variable, whether one or more transition conditions are satisfied. The method may also include transitioning the medical device from a low-power operational state into an active operational state when it is determined that the one or more transition conditions are satisfied, wherein the low-power operational state draws less current from the power source than the active operational state.

Abstract: The present disclosure relates to a low-power measuring device. In one implementation, the low-power measuring device includes a first sensor for measuring a first value, the first value being a measurement of a variable, and a counter unit for generating a first counter value indicative of a first elapsed time since the first value is measured by the first sensor. The low-power measuring device further includes at least one processor configured to send the first value to a remote apparatus, send the first counter value to the remote apparatus, cause the remote apparatus to determine the first elapsed time based on the first value and the first counter value, and cause the remote apparatus to determine a first obtained time at which the first value is measured by the first sensor based on the determined first elapsed time and a reference time of the remote apparatus.

Abstract: An apparatus and methods for tracking administering of medication by syringes is provided. The apparatus may include a plunger head for a syringe. The plunger head may include a transducer that sends and receives ultrasonic signals. The plunger may also include an antenna and a microcontroller that interfaces with the transducer and the antenna. The plunger may also include a power source that powers the microcontroller and the transducer. The transducer, the antenna, the microcontroller, and the power source may be at least partially encapsulated in an elastomer housing that fits within a barrel of the syringe. The microcontroller may be programmed with instructions to calculate data representative of the quantity of medication dispensed from the barrel and transmit the data to a remote device via the antenna.

Abstract: An apparatus and methods for tracking administering of medication by syringes is provided. The apparatus may include a plunger head for a syringe. The plunger head may include a transducer that sends and receives ultrasonic signals. The plunger may also include an antenna and a microcontroller that interfaces with the transducer and the antenna. The plunger may also include a power source that powers the microcontroller and the transducer. The transducer, the antenna, the microcontroller, and the power source may be at least partially encapsulated in an elastomer housing that fits within a barrel of the syringe. The microcontroller may be programmed with instructions to calculate data representative of the quantity of medication dispensed from the barrel and transmit the data to a remote device via the antenna.

Abstract: A method of tracking injections includes depressing a plunger of a medication injection device, and sending and receiving ultrasonic signals from a plunger head installed within a barrel of the medical injection device. The method also includes measuring a time of flight for the signals to travel through the medication, and determining a position of the plunger head based on the time of flight of the signals. Additionally, a plurality of data samples representative of the position of the plunger are logged, and a distance the plunger head travels is calculated. This is used to calculate the quantity of the medication dispensed based on the distance the plunger head travels. An external device is then used to back-interpolate a time corresponding to each data sample logged in order to determine the time the quantity of medication was dispensed.

Abstract: A plunger head for a fluid injection device includes a transducer disposed in the plunger head to measure a compressive force when applied to the plunger head. The plunger head also includes a power source and a microcontroller disposed in the plunger head. The microcontroller is coupled to the power source and the transducer, and the microcontroller is coupled to enter a high-power mode in response to sensing application of the compressive force to the plunger head.

Abstract: A medication injection device includes a barrel and a plunger disposed to dispense a fluid from the barrel. A dosage tracking system is coupled to output data indicative of the fluid dispensed. A controller is disposed within the medication injection device and coupled to receive the data from the dosage tracking system. The controller includes logic that when executed by the controller causes the controller to perform operations including determining, based on the data, whether an air shot event occurred while dispensing the fluid.

Abstract: Various apparatuses and methods for tracking the administration of medication by medication injection devices are provided. A plunger head for a medication injection device may include a first component that houses electronic components and a second component that couples to the first component to form the plunger head. When the plunger head is installed within a barrel of the medication injection device the second component may separate the first component from medication contained within the barrel.

Abstract: Systems and methods for configuring proximally configurable devices deployed in a region that includes scanning the region that includes multiple deployed proximally configurable devices with a directed radiation beam and transmitting data, utilizing the directed radiation beam, to one or more of the deployed proximally configurable devices where the data is associated with the location of the directed radiation beam during scanning within the region.

Abstract: Systems and methods for configuring proximally configurable devices deployed in a region that includes scanning the region that includes multiple deployed proximally configurable devices with a directed radiation beam and transmitting data, utilizing the directed radiation beam, to one or more of the deployed proximally configurable devices where the data is associated with the location of the directed radiation beam during scanning within the region.

Abstract: Systems and methods for configuring proximally configurable devices deployed to a location using a proximal device configuration tool. The proximal device configuration tool generates a directed beam that is sent to a targeted proximally configurable device where the proximally configurable device enters a configuration mode and received configuration information associated with a context using the directed beam.

Abstract: Methods and systems for use of an optical display system as an indicator of a wearable computing device are provided. In one example, a method includes receiving, by the wearable computing device, information for display by an optical display system coupled to the wearable computing device. The method includes in response, making a determination of whether the wearable computing device is in use. The method also includes based on the determination, causing a light source coupled to the wearable computing device to modulate an illumination of the optical display system.

Abstract: Systems and methods for determining a position of a mobile device including a magnetic signal source deployed at a predetermined location. The magnetic signal source is adapted to transmit a low frequency modulated magnetic signal. The position and orientation of the mobile device relative to the predetermined location of the magnetic signal source is determined based on the signal bearing and the signal strength.

Abstract: Systems and methods for information exchange with a targeted beaconing device in a positioning system that includes locating a mobile communication device within a proximity of a plurality of beaconing devices and an enabling of a transmission of information from a beaconing device. A mobile communication device receives the transmitted information from the beaconing device and optionally displays the transmitted information, where the transmitted information from the beaconing device is associated with a context based on the targeted beaconing device.

Abstract: A system configured to detect faults in signal lines. A system includes a first component configured to communicate with a second component via a signal path including one or more signal traces. Sense signal lines are manufactured such that at some point they are in close proximity to a signal trace which is to be monitored. The sense signal lines are configured to use parasitic coupling to redirect a portion of a signal conveyed via a signal trace to a monitoring component. The first component is configured to convey a test signal indicative of a type of test via the signal path, and a reference signal to the monitoring component. The monitoring component is configured to utilize the reference signal to ascertain a presence or absence, or characteristics of a received redirected signal. The monitoring component may optionally utilize a locally generated reference signal.