2019005079 (P.T.A.B. Jan. 22, 2021)

Google Inc.

Patent Trials and Appeals BoardJan 22, 2021

2019005079 (P.T.A.B. Jan. 22, 2021)

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. 14/698,362 04/28/2015 Marc Stogaitis 1133-872US02 5436 98449 7590 01/22/2021 Shumaker & Sieffert, P.A. 1625 Radio Drive, Suite 100 Woodbury, MN 55125 EXAMINER JACKSON, BLANE J ART UNIT PAPER NUMBER 2644 NOTIFICATION DATE DELIVERY MODE 01/22/2021 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): pairdocketing@ssiplaw.com PTOL-90A (Rev. 04/07) M UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________________ Ex parte MARC STOGAITIS and BRIAN PATRICK WILLIAMS ____________________ Appeal 2019-005079 Application 14/698,3621 Technology Center 2600 ____________________ Before JASON V. MORGAN, DEBORAH KATZ, and JON M. JURGOVAN, Administrative Patent Judges. JURGOVAN, Administrative Patent Judge. DECISION ON APPEAL Appellant seeks review under 35 U.S.C. § 134(a) from a final rejection of claims 1, 9–11, 19, and 20, constituting all of the claims pending in the application.2 We have jurisdiction under 35 U.S.C. § 6(b). We affirm.3 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. According to Appellant, the real party in interest is Google LLC. Appeal Br. 3. 2 Claims 3–6 and 13–16 were objected to as depending from a rejected base claim but noted as allowable if rewritten in independent form. Claims 2, 7, 8, 12, 17, and 18 were canceled. 3 Our Decision refers to the Specification (“Spec.”) filed April 28, 2015, as amended on November 22, 2016; the Final Office Action (“Final Act.”) mailed August 6, 2018; the Appeal Brief (“Appeal Br.”) filed January 2, 2019; the Examiner’s Answer (“Ans.”) mailed May 9, 2019; and the Reply Appeal 2019-005079 Application 14/698,362 2 CLAIMED INVENTION The claims relate to a mobile computing device with a processor and motion module that detects a user’s activity, e.g., riding in a vehicle or walking, based on a threshold amount of change of angle of the mobile computing device relative to gravity. Spec. ¶ 67. The processor determines a transition in the user’s activity from riding in a vehicle to walking and determines the location of the vehicle on sensing that transition. Id. ¶ 68. The mobile computing device may thus be used to remind the user where the vehicle is parked. Claims 1, 11, and 20 are independent. Claim 1 is a method claim directed to operating the mobile computing device; claim 11 is an apparatus claim directed to the mobile computing device; and claim 20 is a computer- readable storage medium with instructions for the mobile computing device’s operation. Appeal Br. 16, 20, and 24 (Claims Appendix). Claims 3–6, 9, and 10 depend from claim 1; and claims 13–16 and 19 depend from claim 11. Claim 1, shown below with argued limitation in italics, is representative of the claimed invention. 1. A method comprising: determining, by a processor of a mobile computing device and based on first motion data generated by a motion sensor of the mobile computing device, a first activity of a user associated with the mobile computing device, wherein the first activity is riding in a vehicle; after determining the first activity, detecting, by a motion module of the mobile computing device and based on second motion data generated by the motion sensor after the first activity is determined, an activity transition in response to determining that a Brief (“Reply Br.”) filed June 18, 2019. Appeal 2019-005079 Application 14/698,362 3 change in an angle of the mobile computing device relative to gravity satisfies a threshold amount of change; responsive to detecting the activity transition, determining, by the processor and based on third motion data generated by the motion sensor after the activity transition is detected, a second activity of the user of the mobile computing device, wherein the second activity is walking; and responsive to determining that the second activity is different from the first activity, determining, by the processor, a current location of the mobile computing device indicative of a location at which the vehicle is parked. Appeal Br. 16 (Claims Appendix). REJECTION Claims 1, 9–11, 19, and 20 stand rejected under 35 U.S.C. § 103 based on Michalske (US 2014/0028477 A1, published January 30, 2014). Final Act. 2–4. ANALYSIS Standard of Review We undertake a limited de novo review of the appealed rejections for error based upon the issues identified by Appellant, and in light of the arguments and evidence produced thereon. Ex parte Frye, Appeal No. 2009-006013 (Feb. 26, 2010) (precedential). § 103 Rejection Title 35, section 103, provides A patent for a claimed invention may not be obtained, notwithstanding that the claimed invention is not identically disclosed as set forth in section 102, if the differences between the claimed invention and the prior art are such that the claimed invention as a whole would have been obvious before the Appeal 2019-005079 Application 14/698,362 4 effective filing date of the claimed invention to a person having ordinary skill in the art to which the claimed invention pertains.4 The question of obviousness is resolved on the basis of underlying factual determinations including: (1) the scope and content of the prior art; (2) any differences between the claimed subject matter and the prior art; (3) the level of ordinary skill in the art; and (4) where present, objective evidence of nonobviousness. Graham v. John Deere Co., 383 U.S. 1, 17–18 (1966). A. Independent Claims 1, 11, and 20 Appellant presents the same arguments for claim 1 as for claims 11 and 20, and thus argues these claims together as one group, notwithstanding the manner in which Appellant groups the claims. See Appeal Br. 7–12. Accordingly, we select claim 1 as representative of the independent claims and unless otherwise indicated will restrict our analysis to this claim only. 37 C.F.R. § 41.37(c)(1)(iv) (“When multiple claims subject to the same ground of rejection are argued as a group or subgroup by appellant, the Board may select a single claim from the group or subgroup and may decide the appeal as to the ground of rejection with respect to the group or subgroup on the basis of the selected claim alone”). The Examiner finds that Michalske teaches the limitations of claim 1. Final Act. 2–4 (citing Michalske ¶¶ 40, 47–49, Figs. 5A, 5B, 12). Appellant argues the Examiner erred in rejecting the claims, and presents arguments 4 The AIA included revisions to 35 U.S.C. § 103 that became effective on March 16, 2013. Because the present patent application was filed after this date, we assume AIA § 103 applies to this application. However, on this record, our analysis would not be different if pre-AIA § 103 applied to this case. Appeal 2019-005079 Application 14/698,362 5 for patentability. Appeal Br. 6–10; Reply Br. 2–4. Appellant’s arguments do not persuade us of Examiner error for the following reasons. (1) Angle Relative to Gravity The Examiner finds that Michalske teaches the limitation of claim 1 (shown in emphasis above) reciting use of a motion sensor and motion module that determines a change in angle of the mobile computing device relative to gravity. Final Act. 3 (citing Michalske ¶¶ 47, 49). Specifically, the Examiner finds that Michalske teaches “after the vehicle has stopped, the accelerometer readings next detect erratic movement associated with being picked up or removed from the vehicle by the user.” Id. Appellant argues Michalske is silent about detecting “an angle of the mobile computing device relative to gravity.” Appeal Br. 8. Appellant acknowledges that Michalske describes detecting deceleration to a stop and/or erratic movement associated with being picked up by the user, but argues that Michalske never defines “erratic movement associated with being picked up by the user” and only describes using “speed” or “acceleration” to “detect when a moving vehicle is being parked.” Id. Like the Specification (¶ 36), Michalske (¶ 46) teaches that its mobile device includes an accelerometer or gyroscope to determine a change in the user’s activity, signifying that the vehicle in which the user had been riding is currently parked. Particularly, the Specification describes using application processors, rather than a motion module to calculate the angle of the mobile computing device relative to gravity, which, Appellant contends, requires less power and analysis of less motion data (i.e., fewer accelerometer data points) than when processors determine the user’s current activity. Spec. ¶ 36 (emphasis added). The Specification also states Appeal 2019-005079 Application 14/698,362 6 [m]otion sensor 24 may measure motion information associated with mobile computing device 4. For instance, motion sensor 24 may measure the rotation, velocity, and/or acceleration of mobile computing device 4. Examples of one or more of motion sensor 24 may include an accelerometer, a gyroscope, or any other device capable of measuring the rotation, velocity, and/or acceleration of mobile computing device 4. Spec. ¶ 46 (emphases added). The Specification further states that determining the angle of the computing device relative to gravity is equivalent to determining the tilt of the computing device. Spec. ¶ 13 (“the angle of the computing device relative to gravity (i.e., the tilt of the computing device).”). Similarly, Michalske (¶ 46) describes that “the mobile device 10 may employ its accelerometer or other motion-sensing device 32 to detect if and when the vehicle 54 is being driven and if and when the vehicle 54 comes to a stop to more accurately determine when the vehicle 54 is being parked” (emphasis added). Michalske (¶ 35) further describes “motion-sensing device 32 may be configured to detect motion, speed, movement, and/or change in orientation of the mobile device 10. For example, the motion- sensing device 32 may include an accelerometer, a gyroscope, a magnetometer, and the like.” (emphases added). Thus, Michalske teaches using an accelerometer or gyroscope, the same devices described in the Specification, to determine a change in orientation of a mobile device. Michalske (¶ 47) describes “erratic movement” in the same way the Specification (¶ 29) does, i.e., that the “erratic movement” indicates the user is carrying or walking with the mobile device. Thus, while Appellant may be correct that Michalske does not define what “erratic movement” means, the reference certainly describes it as the movement data observed when a Appeal 2019-005079 Application 14/698,362 7 user is carrying or walking with the device, the same as described in the Specification. Appellant’s remaining argument appears to be that Michalske’s accelerometer or gyroscope is used to measure dynamic parameters like acceleration or velocity, and not a static parameter like orientation. Appeal Br. 8. However, Michalske’s teaching (¶ 35) of use of an accelerometer or gyroscope to determine a change in orientation of the mobile device assumes it has the capability to determine orientation. Furthermore, it was known in the art that “accelerometers . . . only measure orientation relative to gravity.”5 Accordingly, Appellant’s argument does not persuade us that the Examiner erred in the rejection. (2) Activity Transition Appellant argues “Michalske is also deficient for failing to disclose or suggest detecting ‘an activity transition’ as recited by claim 1.” Appeal Br. 8. Appellant argues, while Michalske detects conditions of whether a vehicle is driven or parked or whether the mobile device is being carried by a user, Michalske does not suggest “using an intermediary signal such as ‘an activity transition’ as a signal to infer, as recited by claim 1, ‘a location at which the vehicle is parked.” Id. at 9. We do not agree. With reference to Figure 9, Michalske (¶ 49) states: In order to detect that the vehicle 54 has been parked, the mobile device 10 first detects (block 116) that it is disconnected from the Bluetooth or USB connection. It may also detect (block 118) for accelerometer readings associated with parking 5 Nasiri et al., US Patent No. 8,351,773 B2, filed Mar. 11, 2011, issued Jan. 8, 2013, 31:43–45 (“accelerometers cannot detect rotation around the gravitational vector, but only measure orientation relative to gravity.”). Appeal 2019-005079 Application 14/698,362 8 of the car such as deceleration to a stop and/or erratic movement associated with being picked up by the user. After meeting one or more of these conditions, the mobile device 10 may save (block 120) its GPS location as the location of the parked car. Later, the mobile device 10 may then output (block 122) the saved location of the parked vehicle 54 upon receiving a request from the user. (Emphasis added). Thus, Michalske detects deceleration to a stop, and erratic movement associated with being picked up by the user, as transitions from driving, to parking, to carrying the device while walking, and when these conditions are met, the mobile device stores the location of the parked vehicle. Accordingly, Michalske teaches the argued claim language, and we are not persuaded by Appellant’s arguments that the Examiner errs in the rejection. B. Dependent Claim 9 Claim 9 recites: The method of claim 1, wherein: the motion module includes the motion sensor and a first processor, the processor is an application processor, and the first processor and the application processor are different processors. Appeal Br. 19 (Claims Appendix). The Examiner finds Michalske teaches the limitations of claim 9. Final Act. 4 (citing Michalske ¶¶ 27, 34, 48–50). Specifically, the Examiner finds Michalske teaches that “the mobile device comprises a GPS and motion sensing device, an accelerometer with independent processors to provide motion data.” Id. Appellant argues “Michalske does not disclose or suggest ‘the motion module includes the motion sensor and a first processor,’ as recited by Appeal 2019-005079 Application 14/698,362 9 claim 9.” Appeal Br. 13. According to Appellant, “Michalske only references a processor when describing ‘processor(s) 12’ which is shown in FIG. 1 of Michalske as being separate or distinct from ‘motion-sensing device 32.’” Id. Appellant emphasizes that the claimed first processor and application processor are different processors. Id. As the Examiner found, Michalske (¶ 27) teaches that the mobile device 10 may include one or more processor(s) 12, a global positioning system (GPS) device 30, and a motion-sensing device 32, among other components. Final Act. 4. Michalske’s motion-sensing device 32 and one of the processor(s) 12 may be considered as teaching the claimed limitation of “the motion module includes the motion sensor and a first processor.” See Michalske (¶ 49). Michalske (¶ 28) further teaches that processors 12 may include application interfaces, and thus may execute applications. To the extent the structural limitations of claim 9 could be considered to modify or add to the method steps of claim 1, merely integrating a processor and motion-sensing device together in one module, without more, does not make the claim patentable. See In re Larson, 340 F.2d 965, 968 (CCPA 1965) (integrating separate prior art brake parts into integrated unit did not render claim patentable). Furthermore, separating the function of one processor into multiple processors is mere rearrangement or duplication of parts, which does not render a claim patentable. See In re Harza, 274 F.2d 669 (CCPA 1960) (mere duplication of parts has no patentable significance unless a new and unexpected result is produced); In re Japikse, 181 F.2d 1019 (CCPA 1950) (shifting position of a starting switch did not change overall function of the device). While the Specification (¶ 17) describes that power savings may be obtained under certain circumstances Appeal 2019-005079 Application 14/698,362 10 by using separate processors, the claims do not recite any such feature or how it would operate. Accordingly, Appellant’s arguments for claim 9 do not persuade us of Examiner error. C. Dependent Claim 19 Dependent claim 19 is similar to claim 9 but further recites the limitation that “the motion sensor is an accelerometer.” Appeal Br. 23 (Claims Appendix). The Examiner finds claim 19 taught by Michalske. Final Act. 4 (citing Michalske ¶¶ 27, 34, 48–50). Like claim 9, claim 19 is a structural limitation and it is unclear how it modifies or adds to the method steps of claim 1. In any case, Michalske (¶ 35) discloses that its motion-sensing device 32 may include an accelerometer. Appellant’s other argument—that the claim requires different processors—is the same one raised for claim 9, which we find unpersuasive for the reasons previously stated. D. Reply Brief Arguments Appellant argues Michalske does not teach “determining that a change in an angle of the mobile computing device relative to gravity satisfies a threshold amount of change.” Reply Br. 2. Appellant argues the Examiner relies on a new ground of rejection based on inherency in finding Michalske teaches this feature. Reply Br. 2. We do not agree with Appellant’s arguments. In the Final Office Action, the Examiner cited to Michalske as teaching this feature. Final Act. 4 (citing Michalske ¶¶ 47, 49). In the Answer, the Examiner merely points out that Michalske (¶ 47) mentions “relative erratic movement.” Ans. 4 (emphasis added). The word “relative” implies a comparison of one level of Appeal 2019-005079 Application 14/698,362 11 erratic movement to another, i.e., “a threshold amount of change,” as claimed. Michalske (¶ 35) teaches that its motion-sensing device detects “change in orientation of the mobile device 10,” which is “a change in an angle of the mobile computing device,” as claimed. Thus, Michalske teaches the argued features of the claims, and we do not agree with Appellant that the Examiner’s Answer advances a new ground of rejection based on inherency, or that the Examiner engaged in impermissible hindsight bias. Reply Br. 2–4. Appellant also repeats the “angle relative to gravity” argument, which we find unpersuasive for reasons previously stated. Id. at 4. E. Remaining Claims No separate arguments are presented for the remaining dependent claims, which fall for the same reasons stated for their respective independent claims. See 37 C.F.R. § 41.37(c)(1)(iv) (“the failure of appellant to separately argue claims which appellant has grouped together shall constitute a waiver of any argument that the Board must consider the patentability of any grouped claim separately”). CONCLUSION The Examiner’s rejection of claims 1, 9–11, 19, and 20 under 35 U.S.C. § 103 is affirmed. In summary: Claims Rejected 35 U.S.C. § References Affirmed Reversed 1, 9–11, 19, 20 103 Michalske 1, 9–11, 19, 20 Overall Outcome 1, 9–11, 19, 20 Appeal 2019-005079 Application 14/698,362 12 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED