Encinitas, California
United States
82
2025-09-25
The entities that hold a legal rights for patent applications filed by inventor PEDE Susan Meeks:
Susan Meeks PEDE from Encinitas, US has applied for patents for these inventions. The list has both pending applications and granted patents:
BODY-WORN SENSOR FOR CHARACTERIZING PATIENTS WITH HEART FAILURE
#2 | 2025-07-03NECKLACE-SHAPED PHYSIOLOGICAL MONITOR
#3 | 2025-03-06CHEST-BASED PHYSIOLOGICAL MONITOR
#4 | 2024-03-14Necklace-shaped physiological monitor
#5 | 2023-11-30BODY-WORN SENSOR FOR CHARACTERIZING PATIENTS WITH HEART FAILURE
#6 | 2021-12-30Necklace-shaped physiological monitor
#7 | 2021-10-14Chest-based physiological monitor
#8 | 2020-12-24Body-worn sensor for characterizing patients with heart failure
#9 | 2020-11-12Handheld physiological sensor
#10 | 2020-02-06BODY-WORN SENSOR FOR CHARACTERIZING PATIENTS WITH HEART FAILURE
#11 | 2020-01-30BODY-WORN SENSOR FOR CHARACTERIZING PATIENTS WITH HEART FAILURE
#12 | 2020-01-23Body-worn sensor for characterizing patients with heart failure
#13 | 2019-10-10Body-worn sensor for characterizing patients with heart failure
#14 | 2019-09-26Necklace-shaped physiological monitor
#15 | 2019-06-20Handheld physiological sensor
#16 | 2019-05-30Floormat physiological sensor
#17 | 2019-05-09PHYSIOLOGICAL MONITOR FOR MONITORING PATIENTS UNDERGOING HEMODIALYSIS
#18 | 2019-02-21HANDHELD PHYSIOLOGICAL SENSOR
#19 | 2019-02-14Handheld physiological sensor
#20 | 2018-09-20Body-worn sensor for characterizing patients with heart failure
#21 | 2018-08-02Neck-worn physiological monitor
#22 | 2018-07-19Body-worn sensor for characterizing patients with heart failure
#23 | 2018-03-01Body-worn sensor for characterizing patients with heart failure
#24 | 2017-07-06COMBINED FLOORMAT AND BODY-WORN PHYSIOLOGICAL SENSORS
#25 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#26 | 2017-07-06Physiological monitoring system featuring floormat and wired handheld sensor
#27 | 2017-07-06Physiological monitoring system featuring floormat and wired handheld sensor
#28 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#29 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#30 | 2017-07-06Physiological monitoring system featuring floormat and wired handheld sensor
#31 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND HANDHELD SENSOR
#32 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND HANDHELD SENSOR
#33 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND HANDHELD SENSOR
#34 | 2017-07-06COMBINED FLOORMAT AND BODY-WORN PHYSIOLOGICAL SENSORS
#35 | 2017-07-06FLOORMAT PHYSIOLOGICAL SENSOR
#36 | 2017-07-06Floormat physiological sensor
#37 | 2017-07-06Floormat physiological sensor
#38 | 2017-07-06Floormat physiological sensor
#39 | 2017-07-06Floormat physiological sensor
#40 | 2017-07-06Floormat physiological sensor
#41 | 2017-07-06Physiological monitoring system featuring floormat and wired handheld sensor
#42 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND HANDHELD SENSOR
#43 | 2017-07-06Handheld physiological sensor
#44 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND HANDHELD SENSOR
#45 | 2017-07-06FLOORMAT PHYSIOLOGICAL SENSOR
#46 | 2017-07-06FLOORMAT PHYSIOLOGICAL SENSOR
#47 | 2017-07-06Handheld physiological sensor
#48 | 2017-07-06HANDHELD PHYSIOLOGICAL SENSOR
#49 | 2017-07-06HANDHELD PHYSIOLOGICAL SENSOR
#50 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#51 | 2017-07-06FLOORMAT PHYSIOLOGICAL SENSOR
#52 | 2017-07-06Floormat physiological sensor
#53 | 2017-07-06COMBINED FLOORMAT AND BODY-WORN PHYSIOLOGICAL SENSORS
#54 | 2017-07-06Handheld physiological sensor
#55 | 2017-07-06Combined floormat and body-worn physiological sensors
#56 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#57 | 2017-07-06PHYSIOLOGICAL MONITORING SYSTEM FEATURING FLOORMAT AND WIRED HANDHELD SENSOR
#58 | 2017-07-06HANDHELD PHYSIOLOGICAL SENSOR
#59 | 2017-07-06HANDHELD PHYSIOLOGICAL SENSOR
#60 | 2017-07-06Handheld physiological sensor
#61 | 2017-07-06HANDHELD PHYSIOLOGICAL SENSOR
#62 | 2017-07-06Handheld physiological sensor
#63 | 2017-06-22Neck-worn physiological monitor
#64 | 2017-06-22Neck-worn physiological monitor
#65 | 2017-06-22Neck-worn physiological monitor
#66 | 2017-06-22NECK-WORN PHYSIOLOGICAL MONITOR
#67 | 2017-06-22NECK-WORN PHYSIOLOGICAL MONITOR
#68 | 2017-06-22NECK-WORN PHYSIOLOGICAL MONITOR
#69 | 2016-09-01Body-worn sensor for characterizing patients with heart failure
#70 | 2016-06-16Body-worn sensor for characterizing patients with heart failure
#71 | 2016-04-21Neck-worn physiological monitor
#72 | 2015-01-01Database and algorithm for evaluating efficacy of an electrophysiology procedure
#73 | 2015-01-01Internet-based system for evaluating T waves within ECG waveforms to determine the presence of cardiac abnormalities
#74 | 2014-11-06System for monitoring heart failure patients featuring necklace-shaped sensor and display based on a conventional television or mobile device
#75 | 2014-08-21Necklace-shaped physiological monitor
#76 | 2014-08-21Necklace-shaped physiological monitor
#77 | 2014-07-03Body-worn sensor for characterizing patients with heart failure
#78 | 2014-07-03Body-worn sensor for characterizing patients with heart failure
#79 | 2014-07-03Body-worn sensor for characterizing patients with heart failure
#80 | 2014-07-03Body-worn sensor for characterizing patients with heart failure
#81 | 2014-04-17Internet-based system for evaluating ECG waveforms to estimate the degree of coronary blockage
#82 | 2014-04-17Internet-based system for evaluating ECG waveforms to determine the presence of p-mitrale and p-pulmonale
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