EARLYSENSE LTD Patent applications |
Patent application number | Title | Published |
20160093196 | BURGLAR ALARM CONTROL - Apparatus is described for use with a burglar alarm that includes a detector configured to detect activity and to generate an activity-detection signal in response thereto. A sensor monitors a resting surface and generates a signal in response thereto. A control unit identifies a correspondence between (a) the activity-detection signal, and (b) the signal that is generated by the sensor. The control unit inhibits the burglar alarm from being triggered, in response to the correspondence. Other applications are also described. | 03-31-2016 |
20140207204 | PREDICTION AND MONITORING OF CLINICAL EPISODES - Apparatus and methods are described, including a method for treating a clinical episode. The method comprises sensing at least one parameter of a subject without contacting or viewing the subject or clothes the subject is wearing, analyzing the parameter, detecting the clinical episode at least in part responsively to the analysis, and responsively to detecting the clinical episode, treating the clinical episode using a device implanted in the subject. Other applications are also described. | 07-24-2014 |
20140046209 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus and methods are provided for use with a subject who is undergoing respiration. A motion sensor senses motion of a subject. A breathing pattern analysis unit analyzes components of the sensed motion that result from the subject's respiration. The breathing pattern analysis unit includes double-movement-respiration-cycle-pattern-identification functionality that designates respiration cycles as being double-movement-respiration-cycles (DMRC's) by determining that the cycles define two subcycles. Double-movement-respiration-cycle-event-identification functionality of the breathing pattern analysis unit identifies a DMRC event by detecting that the subject has undergone a plurality of DMRC's. An output is generated that is indicative of the subject having used accessory muscles in breathing, in response to identification of the double-movement-respiration-cycle event. Other embodiments are also described. | 02-13-2014 |
20140012099 | PREDICTION AND MONITORING OF CLINICAL EPISODES - Apparatus and methods are provided including sensing at least one parameter of a subject while the subject sleeps. The parameter is analyzed, and a condition of the subject is determined at least in part responsively to the analysis. The subject is alerted to the condition only after the subject awakes. Other applications are also described. | 01-09-2014 |
20140005502 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES | 01-02-2014 |
20130245502 | METHODS AND SYSTEM FOR MONITORING PATIENTS FOR CLINICAL EPISODES - Apparatus and methods are described for monitoring a subject. A motion sensor senses motion of the subject and generates a sensor signal in response thereto. A control unit includes a filter configured to extract from the sensor signal at least one signal selected from the group consisting of: a breathing-related signal and a heartbeat-related signal. The control unit is configured to analyze the selected signal and to detect changes in body posture of the subject at least partially in response thereto. Other applications are also described. | 09-19-2013 |
20130144178 | TECHNIQUES FOR PREDICTION AND MONITORING OF CLINICAL EPISODES - Apparatus and methods are provided including sensing at least one parameter of a subject while the subject sleeps. The parameter is analyzed, and a condition of the subject is determined at least in part responsively to the analysis. The subject is alerted to the condition only after the subject awakes. Other applications are also described. | 06-06-2013 |
20130137998 | TECHNIQUES FOR PREDICTION AND MONITORING OF CLINICAL EPISODES - Apparatus and methods are provided for measuring a heartbeat of a fetus in a pregnant subject. A motion-related parameter of the pregnant subject is sensed without contacting or viewing the subject or clothes the subject is wearing. The fetal heartbeat is derived from the motion-related parameter, and an output is generated in response thereto. Other applications are also described. | 05-30-2013 |
20120253142 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus and methods are described including a motion sensor ( | 10-04-2012 |
20120132211 | MONITORING ENDOTRACHEAL INTUBATION - Apparatus and methods are provided for use during endotracheal intubation of a subject, including an output unit, and at least one sensor configured to sense motion of the subject, and generate a signal responsively thereto. A control unit is configured to detect an aspect of the intubation by analyzing a component of the signal having a frequency of less than 20 Hz, and drive the output unit to generate an output indicative of the aspect of the intubation. Other applications are also described. | 05-31-2012 |
20110282216 | MONITORING A CONDITION OF A SUBJECT - Apparatus and methods are described including a mechanical sensor configured to detect a physiological signal of a subject. A control unit receives the signal over a time duration of at least two hours at a given period of a first baseline day, and determines a baseline physiological parameter of the subject in response thereto. The control unit receives the signal over a time duration of at least two hours at a given period of a second day, the period on the second day overlapping with the period over which the signal is detected on the first baseline day. The control unit determines a physiological parameter of the subject based upon the detected signal on the second day, and compares the parameter to the subject's baseline physiological parameter. The control unit generates an alert in response to the comparison. Other applications are also described. | 11-17-2011 |
20110112442 | Monitoring, Predicting and Treating Clinical Episodes - Apparatus ( | 05-12-2011 |
20110046498 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus and methods are provided for use with a subject who is undergoing respiration. A motion sensor senses motion of a subject. A breathing pattern analysis unit analyzes components of the sensed motion that result from the subject's respiration. The breathing pattern analysis unit includes double-movement-respiration-cycle-pattern-identification functionality that designates respiration cycles as being double-movement-respiration-cycles (DMRC's) by determining that the cycles define two subcycles. Double-movement-respiration-cycle-event-identification functionality of the breathing pattern analysis unit identifies a DMRC event by detecting that the subject has undergone a plurality of DMRC's. An output is generated that is indicative of the subject having used accessory muscles in breathing, in response to identification of the double-movement-respiration-cycle event. Other embodiments are also described. | 02-24-2011 |
20110015535 | TECHNIQUES FOR PREDICTION AND MONITORING OF COUGHING-MANIFESTED CLINICAL EPISODES - A method is provided for predicting an onset of a clinical episode, the method including sensing breathing of a subject, determining at least one breathing pattern of the subject responsively to the sensed breathing, comparing the breathing pattern with a baseline breathing pattern, and predicting the onset of the episode at least in part responsively to the comparison. Other embodiments are also described. | 01-20-2011 |
20080275349 | MONITORING, PREDICTING AND TREATING CLINICAL EPISODES - Apparatus ( | 11-06-2008 |
20080269625 | PREDICTION AND MONITORING OF CLINICAL EPISODES - A method is provided for predicting an onset of an asthma attack. The method includes sensing at least one parameter of a subject without contacting or viewing the subject or clothes the subject is wearing, and predicting the onset of the asthma attack at least in part responsively to the sensed parameter. Also provided is a method for predicting an onset of an episode associated with congestive heart failure (CHF), including sensing at least one parameter of a subject without contacting or viewing the subject or clothes the subject is wearing, and predicting the onset of the episode at least in part responsively to the sensed parameter. Other embodiments are also described. | 10-30-2008 |