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Displaying 114-128 of 158 results

1052 Exhibit: Exhibit 1052 Grilliot

Document IPR2017-01703, No. 1052 Exhibit - Exhibit 1052 Grilliot (P.T.A.B. Jun. 30, 2017)
{0001] This invention pertains to a facemask of a type wornbya firefighter or by an emergency rescue worker, as combined with an earpiece, which is mounted to the face- mask.
Furthermore, it is disclosed that the ear canal sensing device can be also adapted to provide full duplex (two-way) communication, via a speaker and a microphone.
[0007] Preferably, the earpiece comprises a temperature sensor, whichis arranged to measure a temperaturein the ear canal of the wearer.
The arm 42 is a telescoping arm, which can be lengthwise adjusted and which can be upwardly and downwardly adjusted along the side portion 14 of the frame 12, so as to enable the earpiece 40 to be properly positioned where a projecting portion 42 ofthe earpiece 40 can enter the ear canal of one ear ofthe firefighter.
The sensed temperature can be electronically transmitted, either via a wired connection (not illustrated) or wirelessly, e.g., via Bluetooth technology, to a monitor carried by thefirefighter in a pocket.
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1054 Exhibit: Exhibit 1054 Scanlon

Document IPR2017-01703, No. 1054 Exhibit - Exhibit 1054 Scanlon (P.T.A.B. Jun. 30, 2017)
The invention may further comprise an alarm selectively activated by the monitoring system when the output from the transducer corresponds to preselected movement or sound patterns from the object such as the onset of measurable symptomsindicative of certain conditions, such as falling asleep, snoring, or choking.
This information can be transmitted by various methods to other personnel or hardware for remote diagnosis, verification, data logging or additional signal processing, and can be used to supplement diagnostic equipment such as EEG, EKG, ECG, MRI, CT, scanners, Doppler echocardiogram, or other invasive or non-invasive technologies.
If internal foam is toring system according to the present invention, shown in FIGS. 12 and 13, includes a concave fluid-filled vessel or provided, it must adequately conduct soundor be positioned so that sound will travel through the fluid medium to the dome 120 made of or coated with an anechoic, attenuating, non-acoustic material to minimize unwanted airborne and transducer.
In higher noise environments, such as helicopter and Paging mechanisms with vibrators or beepers can also alert ambulance transports, it is very difficult to monitor patients to be still while torso contact microphone data heartbeat, breathing, and voice, due to the very high acous- collection takes place.
As an added safety feature, the heart rate detector could automatically apply an emergency brake or ignition cut-off, for example when no heartbeat was detected, and prevent accidental movement or engagement of heavy or dangerous equipment in the absence ofa predetermined operator acoustic signal.
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1069 Exhibit: Exhibit 1069 McGraw Hill

Document IPR2017-01703, No. 1069 Exhibit - Exhibit 1069 McGraw Hill (P.T.A.B. Jun. 30, 2017)
Except as permitted under the United States Copyright Act of 1976, no part of this publication may be reproduced ordistributed in any form or by any means, or stored in a data base or retrieval system, without the prior written permission of the publisher.
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secepemeneess i) ero TeRWRGH Lcpneeedand spieminone ss RAIS pe MSTAcpr 6 said seoased see 0 doe openunde S Pasbaierady’ X1-XIV Notes on Pronunciation .........s.ssceecsescesceceeecceseesseesseeseee XV-Xvl [PERICUNTORSRN LER esiadinomn nn dn mrueieitecitlws 2 ba Wandnceraniags dnd @ poagdor ale bebmanee Xvii Dictionary of Scientific and Technical Terms ...................0065 1-2088
{ ‘blak ‘dimond } treatment of petroleum products with sulfuric acid; soluble in black disease [VET MED] Necrotic hepatitis of sheep, re- water but insoluble in naphtha, benzene, and carbon tetrachlo- sulting from infection with Clostridium novyi type B, with the ride.
char [ENG] Any component, usually electronic and black box having knowninput and’ output, that can be readily inserted into or removed from a specific place in a larger system without knowledge of the component’s detailed internal structure.
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1045 Exhibit: Exhibit 1045 Kroll

Document IPR2017-01703, No. 1045 Exhibit - Exhibit 1045 Kroll (P.T.A.B. Jun. 30, 2017)
A hydrophonic gel material, or a bubble-free liquid media, is provided to fill the interior of the housing structure and which serves to accurately transmit sound waves from the diaphragm to the immersed hydro- phone assembly.
These prior art devices have various limitations including the inability to simultaneously detect high and low frequencies, the requirement of continuous “hand- s-on” operator manipulation, and sound wavedistortion and attenuation.
The housing structure is further provided with a flexible diaphragm disposed across its open end for placement in direct contact with the patient body sur- face and an interior having a bubble free fluid medium which permits sound wave transmission from the dia- phragm to the hydrophoneassembly.
As many changes are possible to the embodiments of this invention utilizing the teachings thereof, the de- The channels 45 are constructed and arranged in a gen- scriptions above, and the accompanying drawings erally concentric circular configuration on the top and should be interpreted in the illustrative and not the bottom faces of the hydrophone35in the areas adjacent limited sense.
The sound sensing device of claim 10, wherein said diaphragm means is comprised ofa circularelasto- meric material and wherein said retention ring is com- prised of a thickened outer circumferential portion for seating in said housing structure annular groove.
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1020 Exhibit: Exhibit 1020 Pologe

Document IPR2017-01703, No. 1020 Exhibit - Exhibit 1020 Pologe (P.T.A.B. Jun. 30, 2017)
Taking the ratio of the mathematically processed and normalized red and infrared signals re- sults in a number which is theoretically a function of only the concentration of oxyhemoglobin and reduced hemoglobin in the arterial blood.
Therefore, existing probe designs can introduce errors into the measurements by their inabil- ity to transmit a plurality of light beams substantially along a commonlightpath throughthearteriolar bed of the appendage being monitored.
Only AI values that are caused by a small but non zero changein path length throughfinger 105 are used and therefore AI, can also be a longer interval of time if necessary to obtain a sufficient change in received intensity of the beam of light.
These noise components skew the val- uesof either or both of the magnitudes measured in each set of data points destroying the correct relationship between the red and infrared signals.
Thus, as noted above, and extrapolated to a three variable system: This allowsus to solve for the path length contributions of each of the three absorbers as defined by the follow- ing equations dAj(erFex¥ — €3%e.y) — ddz(ey®exs® — geo = i) + daxerRea™ — oes) =
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1018 Exhibit: Exhibit 1018 Schwartz

Document IPR2017-01703, No. 1018 Exhibit - Exhibit 1018 Schwartz (P.T.A.B. Jun. 30, 2017)
U.S. Patent 6,553,242 to Sarussi, whose disclosure is incorporated herein by reference, describes the use of reflective pulse oximetry to measure heart rate, as well as indications of apnea in sleeping infants.
Sarussi identifies several means of affixing an oximetry sensor to a subject’s body, including a wristband, an ankle band, a sock, and a headband for making measurements at the subject’s forehead.
Control unit 22 may provide an audible indication of one or more of the determined physiological parameters, including heart vate, respiratory rate, or SpO2 level to subject 14 via speaker 16.
The monitoring center may be programmed to automatically notify the subject and other concerned parties, such as the subject’s doctor or work supervisor, if changes in the level of stress, or changes in other physiological indicators, warrant intervention.
reference to certain types of active life settings and signaling methods, the principles of the present invention may likewise be applied in the context of other environments and other communications technologies.
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1047 Exhibit: Exhibit 1047 Aceti

Document IPR2017-01703, No. 1047 Exhibit - Exhibit 1047 Aceti (P.T.A.B. Jun. 30, 2017)
These instruments incorporate minia turized components for monitoring physiological parameters along with a small battery into a package that is configured for placement within the ear.
wire 404 may be coupled to a tbermister 3 48 embedded w ithin a thermally conductive elastomer 410, which allows the communication of tempera ture from the auditory canal wall tis.suc to the thermistcr 348.
In an exemplary embodiment, the first end 112a may include a speaker, microphone, tbermister, ligbt emit ter(s) and/or light detector(s) (ancVorwires, fiber optic cables and/or acoustic tubes for coupling to such components positioned in tbc processor portion 102).
The emergency alert may be communicated to the user wearing the monitoring device, e.g., by the processor 314 via the speaker 350 (optionally playing a predetermine message stored in the voice ROM 352).
The location of the patient may be determined based o n signal strength, e.g., as described in U.S. Pat. No. 6,075,443 entitled WIRELESS TETHER which is com monly assigned with ihe present invention.
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1026 Exhibit: Exhibit 1026 Bryars

Document IPR2017-01703, No. 1026 Exhibit - Exhibit 1026 Bryars (P.T.A.B. Jun. 30, 2017)
[75] Inventors: John D. Bryars, Encinitas; David Cavanaugh, San Diego, both of Calif. [73] Assignee: Advanced Body Metrics Corporation, Rancho Santa Fe, Calif. 5,243,992 9/1993 Eckerle et al. oc 128/690 5,301,154 4/1994 Suga cecccccsssssssssssssesessseessseeessen 128/690 5,431,170 7/1995 Mathews............. ... 128/666 5,539,706 ... 128/690 7/1996 Takenaka etal.
This is important to the user since even in situations where violent physical activity is creating body artifact noise in excess of what can be tolerated by the sensing system, a relatively short period of reduced movementis sufficient to provide an updated, accurate read-out of pulse rate.
The sensor assembly 2 is, preferrably, positioned over the radial artery 6 in the sub- pollex depression parallel to the tendon cord bundles on the volar surface of the wrist in order to obtain a reliable pulse reading.
The button 310 and the chip 307A are encapsulated in a cover layer 311 which is composedofsoft silicone or a similar rubber compoundthat canflex easily,is comfortable to the wearer and provides protection to the sensors from moisture, body fluids, residue and dirt.
This graphic display will provide the wearer with an analog indication of whenthe sensor is properly and optimally placed over the artery to assure accurate and continual heart pulse rate readings.
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1001 Exhibit: Exhibit 1001 US8652040B2

Document IPR2017-01703, No. 1001 Exhibit - Exhibit 1001 US8652040B2 (P.T.A.B. Jun. 30, 2017)
improved ways ofdistribttting raw and analyzed personal healtlt and environmental in l’onnation are desirable to support elforts to enhance licaltltcare quality and reduce costs.
the arm may be contig- ured to support physiological sensors configured to detect auditor measurejaw motion andforarterial blood flow near the neck of a person wearing the earpiece module.
20 is a pie chart that graphically illustrates exemplary power Usage of an earpiece module for monitoring health and environmental exposure, according to some embodiments of the present invention.
The capability to unobtru- sively monitor an individual’s physiology andfor environment, combined with improved user compliance, is expected to have significant impact on future planned health and environmental exposure studies.
Though the main purpose ofthe portable telecommunication device is to transmit the local wireless signal iron: the sensor module 101 over longer distances unattainable by the transmitter 104 of the sensormodule 201. the teleconmtunication 210 can also serve as a method of personal communication and entertainment for the earpiece user.
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1053 Exhibit: Exhibit 1053 Abreu

Document IPR2017-01703, No. 1053 Exhibit - Exhibit 1053 Abreu (P.T.A.B. Jun. 30, 2017)
This research has determined that the measurement of brain (core) temperature and other body parameters can be accom- plished in a non-invasive and continuous manner in humans and animals with sensors positioned in a confined area ofthe skin at the end ofa physiologic tunnel.
The combination of those six elements allows the undisturbed and integral emission ofinfrared radiation from the brain in the form of direct heat transfer at the BTTarea location, which can be seen in the infrared image photographs (FIGS. 1 to 8) The BTT and physiologic tunnels are also referred in this description as the “Target Area”.
Yet, besides near-infrared spec- troscopy and thermal emission, other devices are disclosed for measurement ofsubstancesof interest at the Target Area including electroosmosis as a flux enhancement by ionto- phoresis or reverse iontophoresis with increased passage of fluid through the skin through application of electrical energy.
Fur- thermore, reservoirs mounted on or disposed within support structures, such as the frame and pads of eyeglasses, can deliver substances transdermally at the BTT site by various devices including iontophoresis, sonophoresis, electrocom- pression, electroporation, chemical or physical permeation enhancers, hydrostatic pressure and the like.
A microminiature microphone mounted in the eyeglasses or other support structure can also be adaptedto detect sounds from the heart, respiration, flow, vocal and the environment, which can be sensed and trans- mitted to a remote receiver or reported by local audio and visual means, The sensors are adapted and positioned to monitor the biological parameters at the end of the tunnel.
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1024 Exhibit: Exhibit 1024 Hong

Document IPR2017-01703, No. 1024 Exhibit - Exhibit 1024 Hong (P.T.A.B. Jun. 30, 2017)
Inventors: Di-An Hong,Inverness, IL (US); Mark W. Cholewezynski, Wheaton, IL (US); Janice M. Danvir, Arlington Heights, IL (US); Krishna D. Jonnalagadda, Algonquin, IL (US); Francesca Schuler, Des Plaines, IL (US) Correspondence Address: PRASS & IRVING LLP 2661 Riva Road, Bldg.
Such devices typically require a user to press a keyor series of keys when it is desired to check heart rate.
Similarly, the headset 410 can output audible notifications, alerts, or warnings associated with the heart rate of the user as deter- mined bythe processing unit 422.
Similarly, the headset 1410 can output audible notifications, alerts, or warnings associated with the heart rate of the user as deter- minedby the processing unit 1422.
[0064] It will be apparent to those skilled in the art that various modifications and variations can be made in the devices and methodsofthe present disclosure without depart- ing from the scope ofthe invention.
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1058 Exhibit: Exhibit 1058 Verjus

Document IPR2017-01703, No. 1058 Exhibit - Exhibit 1058 Verjus (P.T.A.B. Jun. 30, 2017)
Inventors: Christophe Verjus, Neuchatel (CH); Rolf Vetter, Yverdon (CH); Patrick Celka, Forel (CH); Philippe Renevey, Lausanne (CH) Correspondence Address:
The information concerning the heart rate can therefore be provided as a complement to the reproduced sound signal, which is generally entertaining and that the wearer of the equipment is used to listening to.
According to the present invention, the detecting unit being incorporated in an car cushion,it is advantageously adapted to be worn in contact with a stiff part of the ear (the cartilage) and therefore it becomes easier to remove the artefacts due to the motion of the body.
[0009] According to other advantageous features of the invention: [0006] The invention therefore provides a portable cquip- ment including in combination a measuring device for measuring the heart rate and a sound reproduction unit including meansfor supplying a signal representative of the sound reproduction and for supplying sound information to a sound transducer, wherein said measuring device and said sound transducer are mountedat least in part in an assembly adapted to be fixed to an ear of a wearer of the equipment, wherein said sound reproduction unit includes substitution/ superimposition meansfor optionally substituting for and/or superimposing, on said signal representative of said sound reproduction a signal generated from signals from said measuring device and representative of said heart rate, wherein said assembly takes the form of an ear cushion including a casing accommodating said sound transducer and adapted to be placed in front of the external auditory meatus opening of a wearer and a horn attached to said casing and adapted to be placed behind the external ear of a wearer and said measuring device is accommodatedat least in part in said casing and at least in part in said hor, and said measuring device includes an optical [0010] radiation emitter and an optical radiation receiver respectively placed in said casing and in said horn so that a light path between them can pass through a portion of the external ear of a wearer, said optical radiation emitter includes a plu- [0011] rality of light sources emitting at separate wave- lengths that are preferably near infra-red wave- lengths, said receiver includes the same number of [0012] groupsofoptical radiation detectors as thereare light sources in said emitter and said measuring device further includes means for calculating the average of signals supplied by the detectors of each group, said substitution/supcrimposition mcans of [0013] said sound reproduction unit include a mixer circuit adapted to receive said signal representative of said heart rate supplied by said measuring device and 0004 0004
[0028] The casing 2 can be covered with a foam material cushion 7 (only part of which is shown) to protect the portion of the ear surrounding the external auditory meatus opening.
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1055 Exhibit: Exhibit 1055 Moroney

Document IPR2017-01703, No. 1055 Exhibit - Exhibit 1055 Moroney (P.T.A.B. Jun. 30, 2017)
This probe includes a series of in-the-ear sensors that interconnect to electronics and a battery pack that are mounted behind the ear or in connection with another location onthe patient(e.g., around the neck, wrist, etc.).
[0036] For adult humans, this includes inflating the bal- loon, or allowing the spongy material 50 to conform to the widely varying ear canal diameters from about 6 mmto about 13 mm.
Such attachment can be througha fastening means including a threaded connector, a snap, a set screw, an adhesive,a rivet, etc. An arm 56 provides support behind the ear and a battery 58 powers both devices.
A separate unit carried by the patient houses a receiver for the low powersignals, a higher powertransmit- ter which communicates with the physiological monitor device 12, the central station 16, etc., a larger battery, and.
The physiological monitoring device as set forth in claim 1, further including a display that presents processed data through alphanumeric symbols, graphs, plots, audio, icons, trends, projections, and historical comparisons.
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1060 Exhibit: Exhibit 1060 Welles

Document IPR2017-01703, No. 1060 Exhibit - Exhibit 1060 Welles (P.T.A.B. Jun. 30, 2017)
In industrial nations, the pressure of one’s job, the requirementfor sufficient money to support one’s self and one’s family and the desire for matcrial wealth has placed an increased stress level on many individuals.
(also known as The large intestine point 1 (LIL) SHANGYANG)is located on the radial side of the index finger, 0.1 inch posterior to the fingernail.
The invention relates broadly to the field of systems and machines thal employ minute illumination impulses for stimulating or inducing therapeutic action for health minded individuals.
FIG. 1 is an exploded front perspective view of the components of the novel stress relief apparatus; FIG. 2 is a schematic electrical diagram of the electrical wave generator assembly circuit; FIG. 3 illustrates the Koryo Hand Therapy Meridians of a hand; and FIG. 4 illustrates a person using the finger loop straps on her ring fingers to establish a whole brain connection.
Astress relief system as recited in claim 1 wherein said tubular sleeve connected to said rear end of saidfirst first and second LED’s are unidirectional lights.
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1004 Exhibit: Exhibit 1004 Majid CV

Document IPR2017-01703, No. 1004 Exhibit - Exhibit 1004 Majid CV (P.T.A.B. Jun. 30, 2017)
Robert Tan, Timothy McClure, C. K. Lin, David Jea, Foad Dabiri, Tammara Massey, Majid Sarrafzadeh, Mani Srivastava, C. D. Montemagno, Peter Schulam and Jacob Schmidt, “Development of a fully implantable wireless pressure monitoring system”, Biomedical Microdevices, Springer, October 2008.
Chen, F. Dabiri, R. Jafari, E. Kursun, V. Raghunathan, T. Schoellhammer, D. Sievers, D. Estrin, G. Reinman, M. Sarrafzadeh, M. Srivastava, B. Wu and Y. Yang, “Reconfigurable Fabric: An Enabling Technology for Pervasive Medical Monitoring,” Proceedings of the Communication Networks and Distributed Systems Modeling and Simulation Conference (NDS) San Diego, CA, January 18-24 2004.
R. Jafari, F. Dabiri, P. Brisk and M. Sarrafzadeh “CustoMed: A Power Optimized Customizable and Mobile Medical Monitoring and Analysis System,” Proceedings of the ACM HCI Challenges in Health Assessment Workshop in conjunction with Computer Human Interaction (CHI) Portland, OR, April 2005.
Roozbeh Jafari, Hyduke Noshadi, Soheil Ghiasi, Majid Sarrafzadeh, “Adaptive Medical Feature Extraction for Resource Constrained Distributed Embedded Systems.” The first IEEE International Workshop on Pervasive and Ubiquitous Health Care (UbiCare) in conjunction with PerCom, March 2006, Pisa, Italy.
Foad Dabiri, Alireza Vahdatpour, Hyduke Noshadi, Hagop Hagopian, Majid Sarrafzadeh, “Electronic Orthotics Shoe: Preventing Ulceration in Diabetic Patients”, International Conference of the IEEE Engineering in Medicine and Biology Society to be held in Vancouver, British Columbia, Canada, 20th - 24th August, 2008.
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