Abstract: A system, apparatus, and method using multiple complementary sensors for the monitoring and wireless communication of several respiration characteristics—that is badge-size, wearable on the outside of clothing, and non-invasive.
Abstract: A low-cost immunoassay apparatus and system that facilitates the operation of efficient high-volume microbial disease testing centers is described. Included is a highly accurate and sensitive lateral flow assay instrument, complete with internal environmentally controlled chamber, a through-sample spectrographic reader, and cloud-connected flexible pre- and post-test calibration and data analysis. Also included is a highly integrated cloud-connected smartphone application that manages the flow and procedure of each patient before and during his visit to a testing center.
Abstract: A method, apparatus and system that includes an environmentally controlled accurate and sensitive general purpose lateral flow assay instrument that can be used throughout the world, in homes, and make-shift emergency centers, including while connected to the internet to receive reference Transmission Raman Spectroscopy signature data, and to transmit test results.
Abstract: A method, apparatus and system that illuminates one face of a lateral flow assay test strip or test strip assembly with light of selected wavelengths and intensities and measures the resulting light intensities at the opposite face at the test stain line region and adjacent regions, in order to determine the value of analyte concentration over an extremely wide range, including values too small to produce a visible test stain line.
Type:
Application
Filed:
November 30, 2020
Publication date:
June 3, 2021
Applicant:
Xtrava Inc.
Inventors:
Sameh Sarhan, Lawrence Herbert Zuckerman
Abstract: A system, apparatus, and method using multiple complementary sensors for the monitoring and wireless communication of several respiration characteristics—that is badge-size, wearable on the outside of clothing, and non-invasive.
Abstract: A system, apparatus, and method for detecting the presence and amount of liquid and/or solid excrement in diapers or other undergarments, using a miniature ultra-low power near-field electromagnetic probe, applicable circuitry, and additional sensor types, that is hand-held or attached to the outside of said garments
Type:
Grant
Filed:
May 8, 2017
Date of Patent:
July 14, 2020
Assignee:
Xtrava Inc.
Inventors:
Sameh Sarhan, Lawrence Herbert Zuckerman, Jihad Naja
Abstract: An ultra-miniature and micro-powered system, apparatus, and method utilizing electromagnetic imaging via minute eddy currents, analog circuit averaging and artifact cancellation, that attaches to the outside of clothing and measures internal bodily functions including but not limited to heart rate, respiration rate, and wetness of underclothing.
Type:
Grant
Filed:
August 27, 2017
Date of Patent:
May 5, 2020
Assignee:
Xtrava Inc.
Inventors:
Sameh Sarhan, Lawrence Herbert Zuckerman
Abstract: Eddy current measurement systems for a variety of bio-metric and other applications, where the target composition and/or other aspects cause relatively small eddy current losses, thus requiring a very high Q tuned circuit probe, and where ultra-miniature and ultra-low power products are required for convenient, non-invasive, and intrinsically safe wearable use.
Abstract: A health monitoring system contained within an intrinsically safe miniature wearable enclosure, for contactless measurement and communication of a variety of bodily functions of infants or other helpless individuals, utilizing novel sensors and data interpretation methods.
Abstract: A system permits non-invasive measurement and wireless reporting of bodily functions of a subject wearing a diaper and an outer layer of clothing outside the diaper. The system comprises a butterfly housing which houses a plurality of sensors, a processor, a memory, and wireless circuitry. The butterfly housing has two double-arc shaped projections. Each double-arc shaped projection extends from an opposing side of the housing at a perimeter of the butterfly housing and has associated therewith a coupling clip. Each double-arc shaped projection and the associated coupling clip is configured to sandwich the outer layer of clothing to removably couple the butterfly housing to the outer layer of clothing without necessitating any modification to the outer layer of clothing. Every measurement of the bodily functions occurs without any direct contact between a skin of the subject and the butterflying housing.
Abstract: A system, apparatus, and method for registering and interpreting the results of lateral flow assay determination by using electric, magnetic, and RF sensors incorporated within the test strip, attached to the inside of the enclosure for same and/or contained in a test fixture; instead of relying on optical inspection techniques. This method features high reliability, low cost, and ability for quantitative and dynamic measurements.
Abstract: This disclosure describes a means for individuals in random locations, whether or not in motion, to communicate with a wearable wellness monitor or any other device without the need to carry electronic communication equipment, by using a wireless network consisting of short-range nodes distributed throughout a home, clinic or other premises. These nodes provide two-way communication with the individuals using verbal announcements, light signals, audible alarms, voice and word recognition, and hand gestures.
Type:
Application
Filed:
June 11, 2018
Publication date:
December 13, 2018
Applicant:
Xtrava Inc
Inventors:
Sameh Sarhan, Mohammad Iman Sadreddin, Lawrence Herbert Zuckerman, Mariano Ferrario
Abstract: An ultra-miniature and micro-powered system, apparatus, and method utilizing electromagnetic imaging via minute eddy currents, analog circuit averaging and artifact cancellation, that attaches to the outside of clothing and measures internal bodily functions including but not limited to heart rate, respiration rate, and wetness of underclothing
Type:
Application
Filed:
August 27, 2017
Publication date:
March 1, 2018
Applicant:
Xtrava Inc
Inventors:
Sameh Sarhan, Lawrence Herbert Zuckerman
Abstract: A system, apparatus, and method for detecting the presence and amount of liquid and/or solid excrement in diapers or other undergarments, using a miniature ultra-low power near-field electromagnetic probe, applicable circuitry, and additional sensor types, that is hand-held or attached to the outside of said garments
Type:
Application
Filed:
May 8, 2017
Publication date:
January 4, 2018
Applicant:
Xtrava, Inc.
Inventors:
Sameh Sarhan, Lawrence Herbert Zuckerman, Jihad Naja
Abstract: A method and system for contactless detection and measurement of a variety of bodily functions and environmental conditions of and in the presence of an infant or other helpless individual, and for communication of measured data to a remote user and/or recording and/or interpreting apparatus. An apparatus that includes said detection, measurement, and communication means mounted within a small, attractive, and intrinsically safe enclosure that attaches to the clothing of the individual.
Abstract: Eddy current measurement systems for a variety of bio-metric and other applications, where the target composition and/or other aspects cause relatively small eddy current losses, thus requiring a very high Q tuned circuit probe, and where ultra-miniature and ultra-low power products are required for convenient, non-invasive, and intrinsically safe wearable use