13081186 (P.T.A.B. Dec. 20, 2016)

Ex Parte Couronne et al

Patent Trial and Appeal BoardDec 20, 2016

13081186 (P.T.A.B. Dec. 20, 2016)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 13/081,186 04/06/2011 Robert Couronne 110971-8716.US01 3394 22862 7590 12/22/2016 FNN PATFNT TtROTTP EXAMINER c/o Perkins Coie LLP WINAKUR, ERIC FRANK P.O. Box 1247 Seattle, WA 98111-1247 ART UNIT PAPER NUMBER 3777 NOTIFICATION DATE DELIVERY MODE 12/22/2016 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): patentprocurement @perkinscoie. com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ROBERT COURONNE, FABIO CIANCITTO, SERGEY ERSHOV, CHRISTIAN WEIGAND, HANS-JOSEF GASSMANN, and RAINER HAVESCHER Appeal 2015-000938 Application 13/081,186 Technology Center 3700 Before STEFAN STAICOVICI, GEORGE R. HOSKINS, and LEE L. STEPINA, Administrative Patent Judges. HOSKINS, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Robert Couronne et al. (“Appellants”)1 appeal under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 1—3 and 5—8 under 35 U.S.C. § 103(a) as unpatentable over Isaacson (US 5,792,052, iss. Aug. 11, 1998) and Swedlow (US 5,746,697, iss. May 5, 1998). The Board has jurisdiction over the appeal under 35 U.S.C. § 6(b). We REVERSE. 1 The Appeal Brief identifies Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V. as the real party in interest. Appeal Br. 3. Appeal 2015-000938 Application 13/081,186 CLAIMED SUBJECT MATTER Claims 1 and 7 are independent. Claim 1 illustrates the subject matter on appeal, and it recites: 1. A device for detecting a vital parameter, comprising: an optoelectronic sensor arrangement for detecting the vital parameter by means of light remission at a finger, wherein the optoelectronic sensor arrangement comprises a first light source for generating light in a visible wavelength range, a second light source for generating light in a non-visible wavelength range and a light sensitive element; and a controller which is implemented to switch on the second light source in temporal intervals, execute an evaluation of the light received from the light-sensitive element in the invisible wavelength range of the second light source with respect to whether a finger is applied to the optoelectronic sensor arrangement and to switch on the first light source as soon as the evaluation indicates that a finger is applied to the optoelectronic sensor arrangement; wherein the controller is implemented to execute an evaluation over a temporal course of the light received from the light sensitive element in the invisible wavelength range of the second light source to detect a pulse parameter when a finger is applied to the optoelectronic sensor arrangement and to switch on the first light source when a pulse wave is detected. Appeal Br. 24 (Claims App.). ANALYSIS In rejecting claim 1, the Examiner finds Isaacson discloses most of the claimed subject matter, including the recited (with emphasis added) “controller [to] execute an evaluation of the light received ... in the invisible wavelength range . . . with respect to whether a finger is applied to the [sensor] and to switch on the [visible wavelength range] light source as soon as the evaluation indicates that a finger is applied.” Final Act. (mailed 2 Appeal 2015-000938 Application 13/081,186 July 18, 2013), at 2 (incorporating prior Non-Final Action); Non-Final Act. (mailed Dec. 24, 2012), at 3 (citing Isaacson, Figs. 14, 18, and 19, and 5:33— 6:27). The Examiner finds Isaacson’s finger detection is not, as recited in claim 1 (with emphasis added), based on “detect[ing] a pulse parameter” such that the visible light source is switched on “when a pulse wave is detected.” Non-Final Act. 3. That is because Isaacson’s finger detection is based on variations in light level, i.e., intensity, that result from a finger being present or not present. See Isaacson, 5:33—67. The Examiner finds Swedlow discloses an oximeter that “evaluates] a signal to establish that a measured pulse signal is present as part of returning the device to a normal operating regime'1'’ from a sleep mode. Non-Final Act. 3 (citing Swedlow, 5:17—32) (emphasis added). The Examiner determines it would have been obvious to modify Isaacson “to determine the presence of a pulse signal, as an alternative to recognizing the presence [or] absence of a finger, as taught by Swedlow [] since this provides an alternate manner to confirm that the correct portion is applied to the sensor.'''’ Id. (emphasis added). The Examiner also determines “Swedlow searches for the presence of a pulse as an indication that the oximetry measurement cycle may begin by finding a response or repeating pattern indicative of physiological data,” which is analogous to Isaacson’s detecting the presence of a finger based on light level to begin an oximetry measurement cycle. Final Act. 3 (emphasis added). Appellants object that the Examiner’s stated rationale for modifying Isaacson to detect the presence of a finger based on pulse wave detection is in error (Appeal Br. 16—17) because Swedlow discloses pulse wave detection “so that the oximeter readings can be made at the same position in 3 Appeal 2015-000938 Application 13/081,186 subsequent pulses” (id. at 19). Thus, in Appellants’ view, Swedlow “fails to teach the added functionality of the controller” as recited in the final, “wherein” limitation of claim 1. Id. at 20.2 We are persuaded of Examiner error. The Examiner’s reasoning for why it would have been obvious to modify Isaacson to detect the presence of a finger based on detecting a pulse wave parameter rests upon finding that Swedlow’s pulse wave parameter detection is in an analogous context to detection of a finger triggering the start of a measurement. See Non-Final Act. 3 (citing Swedlow, 5:17—32); Final Act. 3. That finding is not supported by a preponderance of the evidence. Swedlow discloses a method of conserving power in a pulse oximeter by entering a sleep mode after monitored physiological parameters such as heart rate and blood oxygen concentration remain stable for a predetermined period of time. Swedlow, 2:56—3:5, 4:3—7. The device is programmed to wake up from sleep mode after the passage of another predetermined period of time, of between 20 and 60 seconds. Id. at 3:23—25, 5:61—6:4. If the physiological parameters have remained stable versus data acquired before entry into sleep mode, the device re-enters sleep mode; if the physiological parameters have not remained stable, the sleep mode is discontinued and the device continuously monitors the parameters until they return to stability. Id. at 3:25-36, 6:5-14. 2 Appellant’s reference here to “as present in amended Claim 1” refers to claim 1 having been amended to include the final, “wherein” limitation, which was previously present in the contemporaneously canceled dependent claim 4. See Non-Final Act. 2—3; Amendment (filed May 24, 2013), at 2, 4. 4 Appeal 2015-000938 Application 13/081,186 More specifically, Swedlow “first determines whether a sensor is attached to the oximeter.” Swedlow, 5:6—8, Fig. 2 (step B). Once the pulse oximeter determines a sensor is attached, it “searches for a detectable pulse pattern to lock onto or ‘acquire.’” Id. at 5:17—18, Fig. 2 (step D). Swedlow does not indicate that any particular action is taken if a pulse pattern is not acquired, other than the device continues to search for a pulse pattern. Id. at 5:17—32, Fig. 2 (step D). Swedlow indicates the purpose of acquiring the pulse pattern is “so that the oximeter readings can be made at the same position in subsequent pulses,” to ensure consistent measurement readings in determining ongoing stability. Id. at 5:18—32, Fig. 2 (steps E—F). Thus, Swedlow discloses detecting a pulse pattern for the sole purpose of consistent measurement readings, once a measurement mode is already begun. Swedlow does not disclose, as the Examiner suggests, detecting a pulse pattern as the trigger event for exiting sleep mode, to confirm that the correct portion is applied to the sensor, or as an indication that the measurement cycle may begin. Non-Final Act. 3; Final Act. 3. We, therefore, determine that the rejection of claim 1 as having been obvious over Isaacson and Swedlow is not supported by a preponderance of the evidence. For the foregoing reasons, we do not sustain the rejection of claim 1 as unpatentable over Isaacson and Swedlow. Independent claim 7 is a method claim containing similar limitations to claim 1, in particular evaluating invisible light “to detect a pulse parameter when a finger is applied . . . and to switch on the [visible] light source when a pulse wave is detected.” Appeal Br. 25—26 (Claims App.). The Examiner’s consideration of claim 7 and dependent claims 2, 3, 5, 6, and 8 does not cure the above- 5 Appeal 2015-000938 Application 13/081,186 noted deficiency as to the common subject matter of claims 1 and 7. See Non-Final Act. 3; Final Act. 2—3. Thus, we do not sustain the rejection of those claims. DECISION The Examiner’s decision to reject claims 1—3 and 5—8 is reversed. REVERSED 6