Alarm setting and interfacing with gesture contact interfacing controls
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/00
G08B-025/00
A61B-005/00
A61B-005/0205
A61B-005/021
A61B-005/024
A61B-005/11
A61B-005/22
G01C-022/00
출원번호
US-0579982
(2014-12-22)
등록번호
US-9646481
(2017-05-09)
발명자
/ 주소
Messenger, Jayson
Yuen, Shelten
출원인 / 주소
FITBIT, INC.
대리인 / 주소
Knobbe Martens Olson & Bear LLP
인용정보
피인용 횟수 :
3인용 특허 :
178
초록▼
A device configured for capture of activity data for a user includes a housing, a sensor, a motor, a memory, and a processor. The sensor is disposed in the housing to track activity data of the user. The motor causes vibration of the housing. The memory stores an alarm setting that defines a time of
A device configured for capture of activity data for a user includes a housing, a sensor, a motor, a memory, and a processor. The sensor is disposed in the housing to track activity data of the user. The motor causes vibration of the housing. The memory stores an alarm setting that defines a time of day for triggering an alarm on the device. The processor activates the alarm upon reaching the time of day defined by the alarm setting, with the alarm causing the motor to produce the vibration of the housing. The sensor, which is interfaced with the processor, is configured to detect a current level of activity of the user. The processor is configured to automatically deactivate the alarm if the current level of activity qualifies for deactivating the alarm. The deactivating of the alarm causes the vibration of the device to be suspended.
대표청구항▼
1. A method, comprising: receiving an alarm setting that defines a time of day for triggering an alarm on a device for tracking activity data of a user;activating the alarm upon reaching the time of day defined by the alarm setting, the alarm producing a vibration of the device;determining a level o
1. A method, comprising: receiving an alarm setting that defines a time of day for triggering an alarm on a device for tracking activity data of a user;activating the alarm upon reaching the time of day defined by the alarm setting, the alarm producing a vibration of the device;determining a level of activity of the user detected by the device for tracking activity data of the user when the alarm is activated; andautomatically deactivating the alarm if the level of activity qualifies for deactivating the alarm, the deactivating causing the vibration of the device to be suspended, wherein the method is executed by a processor. 2. The method of claim 1, wherein the vibration being suspended transitions the alarm into one of a snooze mode or an off mode. 3. The method of claim 2, wherein the snooze mode continues for a predetermined period of time before reactivating the alarm, wherein the method further includes transitioning the alarm into the snooze mode one or more times until entering the off mode or processing the vibration for a threshold period of time. 4. The method of claim 2, wherein the vibration being suspended transitions the alarm into the off mode. 5. The method of claim 1, wherein the level of activity that qualifies for deactivating the alarm is a predetermined number of steps. 6. The method of claim 5, wherein the predetermined number of steps is detected after the alarm is activated. 7. The method of claim 5, wherein the predetermined number of steps is detected during a period of time that includes a time period before the alarm is activated. 8. The method of claim 1, wherein the alarm setting is received wirelessly from a computing device. 9. The method of claim 8, wherein the alarm setting is transferred from a server to the computing device over the Internet and from the computing device to the device via a wireless Bluetooth connection. 10. A device configured for capture of activity data for a user, comprising: a housing;a motor for causing vibration of the housing of the device;a sensor disposed in the housing to track activity data of the user;a memory for storing an alarm setting that defines a time of day for triggering an alarm on the device; anda processor for activating the alarm upon reaching the time of day defined by the alarm setting, the alarm causing the motor to produce the vibration of the housing, the sensor being interfaced with the processor and configured to detect a current level of activity of the user, and the processor being configured to automatically deactivate the alarm if the current level of activity qualifies for deactivating the alarm, the deactivating causing the vibration of the device to be suspended. 11. The device of claim 10, wherein the housing is part of a wearable wrist attachable structure, or an attachable structure that can be carried or worn by the user. 12. The device of claim 10, wherein the wearable wrist attachable structure is defined at least partially from a plastic material. 13. The device of claim 10, wherein the housing further includes wireless communication logic. 14. The device of claim 13, wherein the wireless communication logic includes one of WiFi processing logic, or Bluetooth (BT) processing logic, or radio processing logic. 15. The device of claim 13, wherein the wireless communication logic is configured to pair with a portable computing device or a computer, and the portable computing device or the computer is configured for communication over the Internet with a server, the server having processing instructions for configuring the alarm setting. 16. The device of claim 10, wherein the vibration being suspended transitions the alarm into one of a snooze mode or an off mode. 17. The device of claim 16, wherein the processor configures the snooze mode to continue for a predetermined period of time before reactivating the alarm, and the processor transitions the alarm into the snooze mode one or more times until entering the off mode or processing the vibration for a threshold period of time. 18. One or more non-transitory computer readable media including instructions which, when executed by a processor, cause the processor to: receive an alarm setting that defines a time of day for triggering an alarm on a device for tracking activity data of a user;activate the alarm upon reaching the time of day defined by the alarm setting, the alarm producing a vibration of the device;determine a level of activity of the user detected by the device for tracking activity data of the user when the alarm is activated; andautomatically deactivate the alarm if the level of activity qualifies for deactivating the alarm, the deactivating causing the vibration of the device to be suspended. 19. The one or more non-transitory computer readable media of claim 18, wherein the vibration being suspended transitions the alarm into one of a snooze mode or an off mode. 20. The one or more non-transitory computer readable media of claim 19, wherein the snooze mode continues for a predetermined period of time before reactivating the alarm, wherein the instructions further cause the processor to transition the alarm into the snooze mode one or more times until entering the off mode or processing the vibration for a threshold period of time. 21. The one or more non-transitory computer readable media of claim 18, wherein the vibration being suspended transitions the alarm into the off mode. 22. The one or more non-transitory computer readable media of claim 18, wherein the level of activity that qualifies for deactivating the alarm is a predetermined number of steps. 23. The one or more non-transitory computer readable media of claim 22, wherein the predetermined number of steps is detected after the alarm is activated. 24. The one or more non-transitory computer readable media of claim 22, wherein the predetermined number of steps is detected during a period of time that includes a time period before the alarm is activated.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (178)
James,Terry L., Accelerometer for data collection and communication.
Fehr, Jean-Noel; Von Buren, Thomas; Anliker, Urs, Apparatus and method for processing wirelessly communicated data and clock information within an electronic device.
Teller, Eric; Stivoric, John M.; Kasabach, Christopher D.; Pacione, Christopher D.; Moss, John L.; Liden, Craig B., Apparatus for monitoring health, wellness and fitness.
Riley, Raymond W.; Hoffer, Kevin W.; Berner, Jr., William E.; Schrock, Allan M.; Niegowski, James A.; Rauchholz, William F., Athletic performance sensing and/or tracking systems and methods.
Jung, Edward K. Y.; Malamud, Mark A.; Cohen, Alexander J.; Lord, Robert W.; Levien, Royce A.; Rinaldo, Jr., John D., Device pairing via device to device contact.
Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Cohen, Alexander J.; Rinaldo, Jr., John D.; Jung, Edward K. Y., Device pairing via intermediary device.
Geisner, Kevin A.; Perez, Kathryn Stone; Latta, Stephen G.; Sugden, Ben J.; Vaught, Benjamin I.; Kipman, Alex Aben-Athar, Exercising applications for personal audio/visual system.
Beason, Lawrence W.; Laverick, David J.; Olivier, Tracy; Burgett, Scott, GPS device with compass and altimeter and method for displaying navigation information.
Archibald G. Kent ; Curran Timothy G. ; Danielson Orland H. ; Poliac Marius O. ; Thede Roger C., Hand-held non-invasive blood pressure measurement device.
Kahn, Philippe Richard; Kinsolving, Arthur; Christensen, Mark Andrew; Lee, Brian Y.; Vogel, David, Human activity monitoring device with activity identification.
Barney George M. (Dallas TX), Instrument for measuring and computing heart beat, body temperature and other physiological and exercise-related paramet.
Sambamurthy Namakkal S. ; Tripathi Devendra K. ; Deb Alak K. ; Truong Linh Tien ; Kumar Praveen D., Media access control transmitter and parallel network management system.
Kulach, Christopher J.; Rooney, James K.; MacDonald, Paul R.; Stirling, Ross G., Method and apparatus for determining the attachment position of a motion sensing apparatus.
Farringdon,Jonathan; Stivoric,John M.; Teller,Eric; Andre,David; Boehmke,Scott K.; Gasbarro,James; Kovacs,Gregory; Pelletier,Raymond; Kasabach,Christopher, Method and apparatus for measuring heart related parameters.
Sim, Sang Hyun; Seo, Bo Il; Choi, Soon Jin; Lee, Chung Hee; Kim, Ji Hoon, Method for pairing wireless communication devices and apparatus for the same.
Engelberg, Richard J; Hailey, Michael B; Olander, Stefan F; Orenstein, Michael L; White, Kristen L; Pendleton, Reshma T, Methods and systems for encouraging athletic activity.
Yuen, Shelten Gee Jao; Park, James; Lee, Hans Christiansen, Methods and systems for identification of event data having combined activity and location information of portable monitoring devices.
Yuen, Shelten Gee Jao; Park, James; Lee, Hans Christiansen, Methods and systems for interactive goal setting and recommender using events having combined activity and location information.
Yuen, Shelten Gee Jao; Park, James; Lee, Hans Christiansen, Methods and systems for metrics analysis and interactive rendering, including events having combined activity and location information.
Yuen, Shelten Gee Jao; Park, James; Lee, Hans Christiansen, Methods and systems for metrics analysis and interactive rendering, including events having combined activity and location information.
Park, James; Burton, Barry; Panther, Heiko; Friedman, Eric, Methods, systems and devices for activity tracking device data synchronization with computing devices.
Steuer Robert R. (Salt Lake City UT) Rogers Robert K. (Salt Lake City UT) Horne Robert H. (Holladay UT), Miniature physiological monitor with interchangeable sensors.
Nusbaum, Mark E.; Pera, Jr., Vincent; Rhoads, Jan E.; Nusbaum, Jennifer L., Mobile computing weight, diet, nutrition, and exercise tracking system with enhanced feedback and data acquisition functionality.
Anderson Richard W. (Reading MA) Fahey Robert J. (Framingham MA) McClellan William R. (Westford MA) Schlener J. Edward (Winchester MA), Monitoring and signalling system.
Pitchford Gary (Phoenix AZ) Pitchford Steve (Mesa AZ) Hyde Paul (Pleasant Hills CA), Personal multi-purpose navigational apparatus and method for operation thereof.
Lee, Wai C.; Oliver, Tracy L.; Moore, Ryan T.; Fisher, Claudette D.; Downey, David J.; Lovitt, John H.; Brunk, Scott J., Personal training device using GPS data.
Pete Ferguson GB; Harpal Kumar GB; Graham Lay GB; Mike Llewellyn GB; John D. Place GB, Portable remote patient telemonitoring system using a memory card or smart card.
Edinburg Peter J. (20 Shellburne Dr. ; Shelburne Wilmington DE 19803) Fountain Frank S. (2 Park La. Delaire Wilmington DE 19809) Johanson William G. (16 Bridleshire Rd. ; Bridleshire Farm Newark DE 1, Reward granting exercise machine.
Vock, Curtis A.; Darcy, Dennis; Flentov, Peter, Shoes and garments employing one or more of accelerometers, wireless transmitters, processors altimeters, to determine information such as speed to persons wearing the shoes or garments.
Vock,Curtis A.; Darcy,Dennis; Flentov,Peter, Shoes and garments employing one or more of accelerometers, wireless transmitters, processors, altimeters, to determine information such as speed to persons wearing the shoes or garments.
Vincent, Stephen Michael; Dibenedetto, Christian; Oleson, Mark Arthur; Gaudio, Paul, Sports electronic training system with electronic gaming features, and applications thereof.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.