14154606 (P.T.A.B. Jun. 14, 2018)

Ex Parte YU

Patent Trial and Appeal BoardJun 14, 2018

14154606 (P.T.A.B. Jun. 14, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/154,606 01/14/2014 28395 7590 06/18/2018 BROOKS KUSHMAN P.C./FG1L 1000 TOWN CENTER 22NDFLOOR SOUTHFIELD, MI 48075-1238 FIRST NAMED INVENTOR Hai YU 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 ATTORNEY DOCKET NO. CONFIRMATION NO. 83395613 9126 EXAMINER NOLAN, PETER D ART UNIT PAPER NUMBER 3661 NOTIFICATION DATE DELIVERY MODE 06/18/2018 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): docketing@brookskushman.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte HAI YU Appeal2017-008307 Application 14/154,606 Technology Center 3600 Before ANTON W. PETTING, CYNTHIA L. MURPHY, and TARA L. HUTCHINGS, Administrative Patent Judges. MURPHY, Administrative Patent Judge. DECISION ON APPEAL The Appellant1 appeals under 35 U.S.C. Â§ 134 from the Examiner's rejections of claims 1, 2, 4--7, 9-11, and 14--21. We have jurisdiction over this appeal under 35 U.S.C. Â§ 6(b ). We AFFIRM. 1 "The real party in interest is Ford Global Technologies, LLC." (Appeal Br. 2.) Appeal2017-008307 Application 14/154,606 STATEMENT OF THE CASE The Appellant's disclosure "relates to hybrid vehicles with engine stop-start logic and to modifying stop-start logic in response to a vehicle location being in a green zone." (Spec. ,r 1.) Illustrative Claim 2 1. A method of controlling a hybrid electric vehicle compnsmg: issuing an engine start command in response to a traction battery state of charge (SOC) falling below a first threshold when the engine is off and the vehicle is outside a designated geographical region; inhibiting engine start commands in response to the SOC being below the first threshold when the engine is off and the vehicle being within the designated geographical region; and starting the engine based on whether a calculated travel distance to exit the designated geographical region is greater than a calculated travel distance corresponding with the SOC decreasing to a second threshold that is less than the first threshold. Anderson Tate Siy References3 US 2006/0173593 Al US 2010/0280687 Al US 2012/0109408 Al Aug.3,2006 Nov. 4, 2010 May 3, 2012 2 The Appellant filed an Appeal Brief on September 27, 2016; a corrected Appeal Brief on November 4, 2016; and a corrected Claims Appendix for the Appeal Brief on December 2, 2016. Our quotations from, and cites to, the Appeal Brief ("Appeal Br.") correspond to the corrected Appeal Brief filed on November 4, 2016. Our quotations from, and cites to, the Claims Appendix ("Claims App.") correspond to the corrected appendix filed on December 2, 2016. 3 Our quotations from these documents omit, where applicable, bolding and/ or italicization of reference numerals. 2 Appeal2017-008307 Application 14/154,606 Rejections The Examiner rejects claims 1, 2, 4--7, 9-11, 14, 15, 17, 19, and 21 under 35 U.S.C. Â§ 103(a) as unpatentable over Anderson and Tate. (Final Action 4.) The Examiner rejects claims 16, 18, and 20 under 35 U.S.C. Â§ 103(a) as unpatentable over Anderson, Tate, and Siy. (Final Action 10.) ANALYSIS Claims 1, 6, and 11 are the independent claims on appeal, with the rest of the claims on appeal (i.e., claims 2, 4, 5, 7, 9, 10, and 14--21) depending therefrom. (See Claims App.) Independent claims 1 and 11 recite a "method of controlling a hybrid electric vehicle" and independent claim 6 recites a "hybrid electric vehicle." (Id.) As explained by the Appellant, a hybrid electric vehicle includes an engine "that may be stopped and started while the vehicle is in motion." (Spec. ,r 2.) The Appellant's disclosed hybrid electric vehicle 10 can operate in an electric-only mode in which "the engine 12 is stopped" and torque is provided "using stored electric energy from the traction battery 16." (Id. ,r 18.) Thus, when the vehicle 10 is operating in an electric-only mode, the state of charge (SOC) of the battery decreases as electric energy is depleted therefrom. When the Appellant's vehicle 10 is operating in the electric-only mode, the engine 12 is automatically started to avoid "over-depleting" the battery 16. (Spec. ,r 18.) Specifically, the engine 12 is started "in response to a command from [a] controller 20." (Id.) Put another way, in the Appellant's vehicle 10, the engine 12 is started when the controller 20 conveys an engine-start command thereto. 3 Appeal2017-008307 Application 14/154,606 The limitations at issue in this appeal concern the logic that the controller 20 follows when determining whether to convey an engine-start command to the engine 12. This logic is diagrammed in a flowchart shown in the Appellant's Figure 3, reproduced below. SOC <~ SOC ~s, ENGINE START REQUEST 1NH!B!T HJGINE ST.~RT REQUEST NO NO START ENG1NE The logic diagrammed in the Appellant's flowchart indicates that, at block 44, "the engine is started." (Spec. ,r 22.) In other words, block 44 corresponds to the processing activity of the Appellant's controller 20 which causes an engine-start command to be conveyed to the engine 12. 4 Appeal2017-008307 Application 14/154,606 The prior art references of record likewise disclose flowcharts diagramming the logic followed by a controller, or a comparable processing component, when determining whether to convey an engine-start command to the engine of a hybrid electric vehicle. Anderson discloses a flowchart diagramming that, at block S 108, the engine is started (see Anderson, Fig. 3), and Anderson explains that this happens when a processor "commands" a vehicle controller "to operate the vehicle in the charging mode." (Id. ,r 35.)4 Tate discloses a flowchart diagramming that, at block 414, the engine is started (see Tate, Fig. 5), and Tate explains that this happens when a processor "sends electrical signals" instructing a control module "to start the engine." (Tate ,r 19.) The logic diagrammed in the Appellant's flowchart reflects a preference "for the vehicle to remain in electric only mode for as long as possible" when it is within a defined geographic region. (Spec. ,r 19.) The logic diagramed in the prior art flowcharts likewise reflects a preference for the vehicle to remain in electric-only mode in certain geographic circumstances. Anderson's flowchart reflects a preference for a vehicle to remain in an electric-only mode while in a quiet zone (see Anderson ,r 33, Fig. 3); and Tate's flowchart reflects a preference for a vehicle to remain in an electric-only mode when it is within a distance D 1 of a battery-charging destination (see Tate ,r 26, Fig. 5). The Examiner's determination of obviousness is premised upon the logic diagrammed in the Appellant's flowchart being obvious over Anderson 4 "In [Anderson's] charging mode, the internal combustion engine 34 is on and may be running at any suitable level for charging of the energy storage device." (Anderson ,r 26.) 5 Appeal2017-008307 Application 14/154,606 and Tate. (See Final Action 4.) According to the Appellant, "[t]he foundational issue of this appeal is whether or not certain claim elements are even in the prior art references cited by the Examiner." (Appeal Br. 4.) As discussed below, the record supports a determination that the combined teachings of Anderson and Tate would have inspired one of ordinary skill to implement the logic diagrammed in the Appellant's flowchart in an electric hybrid vehicle. 5 Independent Claim 1 Independent claim recites the step of "starting the engine based on whether a calculated travel distance to exit the designated geographical region is greater than a calculated travel distance corresponding with the SOC decreasing to a second threshold that is less than [a] first threshold." (Claims App.) Tate's flowchart diagrams a logic path (block 406 to block 408 to block 414) in which the engine is started when the travel distance to a battery-charging destination is greater than a distance D 1. (See Tate ,r 26, Fig. 5.) And the Examiner finds that Tate's distance DI is a value corresponding to the battery SOC decreasing from a first threshold SOC 1 to a second threshold SOC 2. (See Answer 6-7.) The Appellant argues that Tate fails to teach "a travel distance to exit a designated geographical region" as required by independent claim 1. (Appeal Br. 9.) We are not persuaded by this argument because Anderson teaches that the engine should be started to recharge the battery when the vehicle leaves a 5 The Appellant does not challenge the Examiner's articulated reason as to why it would have been obvious to combine the teachings of Anderson and Tate (see Final Action 6, see Appeal Br. 6-12. 6 Appeal2017-008307 Application 14/154,606 quiet zone (see Anderson ,r 38); and Tate teaches determining the vehicle's travel distance to a battery-recharging destination (see Tate ,r 26). Thus, the prior art imparts that an exit from a geographic region ( e.g., a quiet zone) can be equated to a battery-recharging destination. The Appellant also argues that Tate "fails to disclose any particular relationship between the distance D 1 and any state of charge threshold." (Appeal Br. 9.) We are not persuaded by this argument because we agree with the Examiner that Tate "makes it abundantly clear that the distance D 1 is related to the distance the vehicle can drive before the SOC reaches SOC2." (Answer 6.) For example, in trip 214 graphed in Tate's Figure 4, distance D 1 corresponds to battery decreasing from the first threshold SOC 1 (at time T3), to "just before the battery SOC reaches the second predetermined state of charge SOC2." (Tate ,r 26.) The Appellant further argues that Tate's distance DI is "one-size-fits- all predetermined value," and, therefore, cannot constitute the "calculated" value required by independent claim 1. (Reply Br. 2.) The Appellant contends that "[t]he range the vehicle can drive before reaching a lower battery SOC threshold" will vary "depending upon the terrain, traffic levels, and many other factors that vary with time." (Appeal Br. 10.) However, claim 1 does not recite a calculating step, much less a calculating step that must take the above-mentioned factors into consideration. As such, the "calculated" value recited in claim 1 would read on a previously calculated (i.e., predetermined or predefined) value such as Tate's distance DI. Moreover, prior art of record evidences that it would have been known to one of ordinary skill in the art to "calculate the estimated remaining distance" that a vehicle "can travel on the available battery power." (Siy ,r 12.) 7 Appeal2017-008307 Application 14/154,606 Accordingly, the Appellant fails to establish that the Examiner errs in determining that the method recited in independent claim 1 would have been obvious over Anderson and Tate. Thus, we sustain the Examiner's rejection of independent claim 1. Independent Claim 6 Independent claim 6 recites a controller configured to "start the engine based on a determination of whether a travel distance to exit the designated geographical region is greater than a travel distance corresponding with the SOC decreasing to a second threshold less than the first threshold." (Claims App.) The Appellant does not present arguments beyond the unpersuasive ones discussed above in connection with independent claim 1. (See Appeal Br. 13; see also Reply Br. 2.) Accordingly, the Appellant fails to establish that the Examiner errs in determining that the vehicle recited in independent claim 6 would have been obvious over Anderson and Tate. Thus, we sustain the Examiner's rejection of independent claim 6. Independent Claim 11 Independent claim 11 recites the step of "inhibiting engine start commands, issued in response to a battery state of charge being below a first threshold," in response to the vehicle being in a predefined geographic location "and a travel distance to exit the predefined geographic location being less than a calculated allowable electric range of the vehicle." (Claims App.) As discussed above, Tate's flowchart diagrams a logic path (block 406 to block 408 to block 414) in which the engine is started when the travel distance to a battery-charging destination is greater than a 8 Appeal2017-008307 Application 14/154,606 distance DI. (See Tate ,r 26, Fig. 5.) With this logic path, the engine is started when the battery SOC drops below a threshold SOC 1. (Id.) The Examiner finds that, when this logic path is followed, Tate "issues" engine start commands. (See Answer 12.) Tate's flowchart also diagrams a logic path (block 406 to block 408 to block 413 to block 412) in which the vehicle remains in electric mode when the travel distance to a battery-charging destination is less than a distance DI. (See Tate ,r 26, Fig. 5.) With this logic path, the engine is not started unless or until the battery SOC drops below a lower threshold SOC2. (Id.) The Examiner finds that, when this logic path is followed, Tate "inhibits" engine start commands. (See Answer 12-13.) The Appellant seems to argue that, in their flowchart, an engine start command is "generated" at a certain block 40, and/or "inhibited" at a certain block 48, but the same does not occur at blocks in Tate's flowchart with the same logical connotation. (See Appeal Br. 13-15; see also Reply Br. 2--4.) The problem with this argument is that a flowchart is nothing more than a diagram of the logic followed during the processing of information. As discussed above, in the Appellant's vehicle 11, the engine 12 is started when the controller 20 conveys an engine-start command, which would correspond to the logic denoted by block 44 in the Appellant's flowchart. (See Spec. ,r,r 18, 22.) As also discussed above, the same is true in Tate, as the engine is started when the processor sends electrical instruction signals, which would correspond to the logic denoted by block 414 in Tate's flowchart. (Tate ,r 19; see also id. ,r 26.) Insofar as something mechanically or electrically significant happens in the Appellant's vehicle 10 when the processing activity of the controller 20 corresponds to flowchart block 40 9 Appeal2017-008307 Application 14/154,606 and/or flowchart block 48, we see no discussion of this in the Specification. (See, e.g., Spec. ,r,r 22, 27.) Accordingly, the Appellant fails to establish that the Examiner errs in determining that the method recited in independent claim 6 would have been obvious over Anderson and Tate. Thus, we sustain the Examiner's rejection of independent claim 11. Dependent Claims 2, 4, 5, 7, 9, 10, and 14-21 The Appellant does not argue the dependent claims separately from the independent claims (see Appeal Br. 15), and so they fall therewith. Thus, we sustain the Examiner's rejections of dependent claims 2, 4, 5, 7, 9, 10, and 14--21.6 DECISION We AFFIRM the Examiner's rejections of claims 1, 2, 4--7, 9-11, and 14--21. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a)(l)(iv). AFFIRMED 6 With particular reference to dependent claims 16, 18, and 20, as noted above, Siy shows that it is known to "calculate the estimated remaining distance" that a vehicle "can travel on the available battery power." (Siy ,r 12.) 10