Wireless tag apparatus and related medication compliance monitoring techniques
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04Q-005/22
G06K-019/07
A61J-001/03
A61J-007/04
출원번호
US-0813324
(2017-11-15)
등록번호
US-10108892
(2018-10-23)
발명자
/ 주소
Sengstaken, Jr., Robert W.
출원인 / 주소
VYPIN, LLC
대리인 / 주소
Hayes Soloway PC
인용정보
피인용 횟수 :
0인용 특허 :
46
초록▼
A wireless tag apparatus and related medication compliance monitoring techniques are disclosed. In some embodiments, the apparatus may include a motion detector configured to detect at least one of a movement of and an impact to the apparatus. The apparatus also may include a sensing circuit configu
A wireless tag apparatus and related medication compliance monitoring techniques are disclosed. In some embodiments, the apparatus may include a motion detector configured to detect at least one of a movement of and an impact to the apparatus. The apparatus also may include a sensing circuit configured to scan, in response to the detection by the motion detector, a sensor array associated with a medication dispenser external to the apparatus to determine whether contents of at least one medication compartment of the medication dispenser have been expelled. The apparatus further may include a transmitter configured to transmit, in response to the detection by the motion detector, a signal including data pertaining to whether the contents of the at least one medication compartment have been expelled, wherein the signal is a radio frequency signal. In some embodiments, the apparatus may be configured for use, for example, in monitoring medication compliance.
대표청구항▼
1. A wireless tag apparatus comprising: a motion detector configured to detect at least one of a movement of the wireless tag apparatus and an impact to the wireless tag apparatus;a sensing circuit configured to scan, in response to the detection by the motion detector of the at least one of the mov
1. A wireless tag apparatus comprising: a motion detector configured to detect at least one of a movement of the wireless tag apparatus and an impact to the wireless tag apparatus;a sensing circuit configured to scan, in response to the detection by the motion detector of the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus, a sensor array associated with a medication dispenser external to the wireless tag apparatus to determine whether contents of at least one medication compartment of the medication dispenser have been expelled, wherein the sensing circuit is configured to scan the sensor array: at a first scan rate when the motion detector has detected the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus; andat a second scan rate that is lower than the first scan rate when the motion detector has not detected at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus; anda transmitter configured to transmit, in response to the detection by the motion detector of the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus, a first signal including data pertaining to whether the contents of the at least one medication compartment have been expelled, wherein the first signal is a radio frequency signal. 2. The wireless tag apparatus of claim 1, wherein: to determine whether the contents of the at least one medication compartment have been expelled, the sensing circuit is configured to detect whether a resistor of the sensor array has been broken, the resistor being disposed over an opening associated with the at least one medication compartment; andthe data pertaining to whether the contents of the at least one medication compartment have been expelled includes data pertaining to whether the resistor has been broken. 3. The wireless tag apparatus of claim 2, wherein: the sensing circuit is further configured to scan the sensor array to determine whether each individual resistor of a plurality of resistors of the sensor array is operational; andthe first signal further includes data pertaining to whether each individual resistor of the plurality of resistors is operational. 4. The wireless tag apparatus of claim 1, wherein the first signal further includes data pertaining to at least one of: an identification of the wireless tag apparatus;whether the wireless tag apparatus is operational;whether the sensor array is operational;whether the wireless tag apparatus and the sensor array are operatively coupled with one another;a size of the sensor array;a power level of a battery hosted by the wireless tag apparatus; anda signal strength of the first signal. 5. The wireless tag apparatus of claim 1, wherein the first signal is a Bluetooth signal in an ISM band having a frequency of between 2.4-2.485 GHz. 6. The wireless tag apparatus of claim 1, wherein the first signal is a Wi-Fi signal in an ISM band having a frequency of between 2.4-2.485 GHz. 7. The wireless tag apparatus of claim 1, wherein the transmitter is configured to transmit the first signal after each scan of the sensor array by the sensing circuit. 8. The wireless tag apparatus of claim 1, wherein the transmitter is configured to transmit the first signal after multiple consecutive scans of the sensor array by the sensing circuit. 9. The wireless tag apparatus of claim 1, wherein the sensing circuit is further configured to scan the sensor array at a fixed time interval. 10. The wireless tag apparatus of claim 1, further comprising a processor, wherein: the motion detector is configured to output a second signal in response to the detection of the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus; andthe processor is configured to receive the second signal and, in response thereto: transition out of a sleep state;process data included in the second signal; andinstruct the sensing circuit to scan the sensor array. 11. The wireless tag apparatus of claim 10, wherein the processor comprises a microcontroller unit configured to utilize a Bluetooth Low Energy communication protocol. 12. The wireless tag apparatus of claim 1, wherein the motion detector comprises a microelectromechanical systems accelerometer configured to use 10 μAh or less of electric charge provided by a battery hosted by the wireless tag apparatus. 13. The wireless tag apparatus of claim 1, further comprising: a timer configured to output a second signal periodically; anda processor configured to receive the second signal and, in response thereto: transition out of a sleep state; andinstruct the sensing circuit to scan the sensor array. 14. The wireless tag apparatus of claim 13, wherein the timer is native to the processor. 15. The wireless tag apparatus of claim 1, further comprising: a button feature configured to output a second signal when activated; anda processor configured to receive the second signal and, in response thereto: transition out of a sleep state; andinstruct the sensing circuit to scan the sensor array. 16. The wireless tag apparatus of claim 1, further comprising a sensor array input connection configured to be electrically coupled with the sensor array. 17. The wireless tag apparatus of claim 1, wherein the medication dispenser comprises a blister pack. 18. A method of monitoring medication compliance via a wireless tag apparatus, the method comprising: detecting at least one of a movement of the wireless tag apparatus and an impact to the wireless tag apparatus;scanning, in response to detecting the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus, a sensor array associated with a medication dispenser external to the wireless tag apparatus to determine whether contents of at least one medication compartment of the medication dispenser have been expelled, wherein scanning the sensor array occurs: at a first scan rate when the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus has been detected; andat a second scan rate that is lower than the first scan rate when at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus has not been detected; andtransmitting, in response to detecting the at least one of the movement of the wireless tag apparatus and the impact to the wireless tag apparatus, a first signal including data pertaining to whether the contents of the at least one medication compartment have been expelled, wherein the first signal is a radio frequency signal. 19. The method of claim 18, wherein: to determine whether the contents of the at least one medication compartment have been expelled, the method comprises detecting whether a resistor of the sensor array has been broken, the resistor being disposed over an opening associated with the at least one medication compartment; andthe data pertaining to whether the contents of the at least one medication compartment have been expelled includes data pertaining to whether the resistor has been broken. 20. The method of claim 19, wherein: the method further comprises scanning the sensor array to determine whether each individual resistor of a plurality of resistors of the sensor array is operational; andthe first signal further includes data pertaining to whether each individual resistor of the plurality of resistors is operational. 21. The method of claim 18, wherein the first signal further includes data pertaining to at least one of: an identification of the wireless tag apparatus;whether the wireless tag apparatus is operational;whether the sensor array is operational;whether the wireless tag apparatus and the sensor array are operatively coupled with one another;a size of the sensor array;a power level of a battery hosted by the wireless tag apparatus; anda signal strength of the first signal. 22. The method of claim 18, wherein the first signal is a Bluetooth signal in an ISM band having a frequency of between 2.4-2.485 GHz. 23. The method of claim 18, wherein the first signal is a Wi-Fi signal in an ISM band having a frequency of between 2.4-2.485 GHz. 24. The method of claim 18, wherein transmitting the first signal occurs after each scan of the sensor array by the sensing circuit. 25. The method of claim 18, wherein transmitting the first signal occurs after multiple consecutive scans of the sensor array by the sensing circuit. 26. The method of claim 18, wherein scanning the sensor array occurs at a fixed time interval.
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