Ex Parte Tytgat et al

Patent Trials and Appeals Board

Jan 28, 2019

14391439 - (D) (P.T.A.B. Jan. 28, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE
APPLICATION NO. FILING DATE
14/391,439 10/09/2014
47382 7590 01/30/2019
McCracken & Gillen LLC - NOK
1315 W. 22nd Street
Suite 225
Oak Brook, IL 60523
FIRST NAMED INVENTOR
Donny Tytgat
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.
ALU-192/810621 US 9181
EXAMINER
WANG,YI
ART UNIT PAPER NUMBER
2611
NOTIFICATION DATE DELIVERY MODE
01/30/2019 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):
docket@mfgip.com
nokia.ipr@nokia.com
PTOL-90A (Rev. 04/07)
UNITED STATES PATENT AND TRADEMARK OFFICE
BEFORE THE PATENT TRIAL AND APPEAL BOARD
Ex parte DONNY TYTGAT, SAMMY LIEVENS, and MAARTEN AERTS
Appeal 2018-003611
Application 14/391,439
Technology Center 2600
Before JOHN A. JEFFERY, DENISE M. POTHIER, and
JUSTIN BUSCH, Administrative Patent Judges.
POTHIER, Administrative Patent Judge.
Opinion Concurring-in-part filed by JEFFERY, Administrative Patent
Judge.
DECISION ON APPEAL
STATEMENT OF THE CASE
Appellants 1,2 appeal under 35 U.S.C. § 134(a) from the Examiner's
decision to reject claims 1, 3---6, 15, 17-21, and 23-31. Br. 2. Claims 2,
1 Throughout this opinion, we refer to the Final Action (Final Act.) mailed
June 12, 2017; the Appeal Brief (Br.) filed August 1, 2017; and the
Examiner's Answer (Ans.) mailed November 22, 2017. No Reply Brief has
been filed.
2 The real party in interest is listed as Alcatel-Lucent, Inc. now known as
Nokia. Br. 2.
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7-14, 16, 22 have been canceled. Id. at 16-19 (Claims App'x). We have
jurisdiction under 35 U.S.C. § 6(b). We affirm.
Invention
Appellants' "invention relates to a method for generating a three-
dimensional ... model, based on one or more two-dimensional ... image
input data together with their associated depth or disparity information."
Spec. 1:3-7. The invention describes "a simple, yet accurate method
allowing real-time processing" (Spec. 2: 18-19), involving generating the
three-dimensional (3D) surface using a distance function applied at an octree
structure's comer points. 3 Spec. 2: 14--17; 8:4--15, 12: 14--18, Fig. 5a.
Independent claim 1 exemplifies the claims at issue and reads as
follows:
1. A method for generating a 3 D model from at least one
image data, said method comprising the steps of:
receiving, at a processor, said at least one image data as
an input from one or more cameras, said at least one image data
comprising 2D+z data and reliability information;
3 An octree structure
is a well-known tree data structure, often used to partition a
three dimensional space by recursively subdividing it into eight
octants. An octree splits a cube into 8 sub-cubes as long as a
split condition is fulfilled, which split condition is defined in
our embodiment as a function of distance metrics on the 8
points of the cube.
Spec. 7:11-15; see Spec. 4:7-9, 11:3-12:13, Figs. 3--4, 6a---d.
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building, at said processor, a 3D surface using said 2D+z
data and said reliability information from said at least one
image data input; and
performing, at said processor, a meshing operation in 3D
on said 3 D surface to generate said 3 D model;
wherein said step of building, at said processor, said 3D
surface comprises calculating distance function values by
applying a distance function at comer points of an octree
structure, such that said comer points of said octree structure
with a predetermined value of said distance function, will form
said 3D surface.
Br. 16 (Claims App'x).
The Examiner relies on the following as evidence of unpatentability:
Smith
Pavlovskaia
Tian
US 2009/0052760 Al
US 2011/0282473 Al
US 2012/0039525 Al
Feb.26,2009
Nov. 17, 2011
Feb. 16,2012
Lutz Falkenhagen, 3D Object-Based Depth Estimation from
Stereoscopic Image Sequences, PROC. INT'L WORKSHOP ON
STEREOSCOPIC AND 3D IMAGING 81-86 (1995).
Hansung Kim et al., A Real-Time 3D Modeling System Using Multiple
Stereo Cameras for Free-Viewpoint Video Generation, IMAGE
ANALYSIS AND RECOGNITION LECTURE NOTES IN COMP. SCIENCE 23 7-
49 (2006) ("Kim").
The Rejections
Claims 1, 3, 4, 15, 17, 18, 21, 23, 4 24, and 27-31 are rejected under
35 U.S.C. § I03(a) as being unpatentable over Pavlovskaia, Tian,
Falkenhagen, and Kim. Final Act. 8-15.
4 The Examiner mistakenly includes canceled claim 22 in the rejection's
heading. Final Act. 8.
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Claims 5, 6, 19, 20, 25, and 26 are rejected under 35 U.S.C. § 103(a)
as being unpatentable over Pavlovskaia, Tian, Falkenhagen, Kim, and Smith.
Final Act. 15-18.
We review the appealed rejections for error based upon the issues
identified by Appellants in their Appeal Brief, and in light of the arguments
and evidence produced. Cf Ex parte Frye, 94 USPQ2d 1072, 1075 (BPAI
2010) (precedential) (citing In re Oetiker, 977 F.2d 1443, 1445 (Fed. Cir.
1992)). "Any arguments or authorities not included in the appeal brief will
be refused consideration by the Board for purposes of the present appeal."
37 C.F.R. § 4I.37(c)(l)(vi).
THE OBVIOUSNESS REJECTION OVER PA VLOVSKAIA, TIAN,
FALKENHAGEN, AND KIM
For this rejection, Appellants argue claims 1 and 29 separately. Br.
6-13. We address these claims below and select claim 1 as representative of
claims 1, 3, 4, 15, 17, 18, 21, 23, 24, 27, 28, 30, and 31. See 37 C.F.R.
§ 4I.37(c)(l)(iv).
CLAIMS 1, 3, 4, 15, 17, 18, 21, 23, 24, 27, 28, 30, AND 31
Regarding independent claim 1, the Examiner finds Pavlovskaia
teaches many recited elements including, among other things, receiving at
least one image data comprising 2D+z data as an input from one or more
cameras. Final Act. 9 (citing Pavlovskaia ,r 275). The Examiner also finds
that Pavlovskaia teaches using the 2D+z data to build a 3D surface. Id.
( citing Pavlovskaia ,r,r 275-276).
Although acknowledging Pavlovskaia's at least one image data does
not comprise reliability information, the Examiner cites Tian in combination
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with Pavlovskaia for teaching this feature. Id. at 9-10 (citing Tian ,r,r 1, 12,
22-24). The Examiner also acknowledges that Pavlovskaia/Tian's resulting
3D surface is not built using the reliability information as claimed, but cites
Falkenhagen in combination with Pavlovskaia and Tian to teach this feature.
Id. at 10-11 ( citing Falkenhagen § 1). The Examiner further indicates the
combined Pavlovskaia/Tian/Falkenhagen system does not teach calculating
distance function values by applying a distance function at comer points of
an octree structure, such that the comer points of the octree structure with a
predetermined value of the distance function form the 3 D surface. Id. at 11.
The Examiner relies on Kim in combination with the
Pavlovskaia/Tian/Falkenhagen system for teaching this feature in concluding
that the claim would have been obvious. Id. at 11-12 (citing Kim Abstract,
238, 239 (§ 2.2), 242--43, Fig. 5).
Appellants present many arguments. Br. 7-11. Appellants argue Kim
does not teach "comer points of said octree structure with a predetermined
value of said distance function" as recited in claim 1. Br. 8 ( citing Kim
242). Appellants further argue Falkenhagen does not teach the reliability
data recited in claim 1 because Falkenhagen's reliability data is not provided
by one or more cameras. Id. (citing Falkenhagen § § 2 and 3. 1).
Appellants further assert that because Falkenhagen and Tian disclose
different and conflicting techniques for determining reliability information,
the proposed combination of Falkenhagen and Tian would not be a properly
functioning system. Id. at 8-9. Appellants contend Falkenhagen and Tian
provide no guidance indicating their reliability information are equivalent.
Id. at 10. Appellants also argue that, because Pavlovskaia and Kim disclose
differences in the number of computers used, the proposed combination of
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Pavlovskaia and Kim would not be a properly functioning system. Id. at 10.
Appellants further assert Falkenhagen and Kim disclose different and
conflicting techniques for determining reliability information. Id. at 10-11.
MAIN ISSUES
I. Under§ 103, has the Examiner erred by finding Pavlovskaia,
Tian, Falkenhagen, and Kim collectively would have taught or suggested:
(A) "said comer points of said octree structure with a predetermined
value of said distance function" as recited in claim 1?
(B) "receiving ... at least one image data as an input from one or
more cameras, said at least one image data comprising ... reliability
information" as recited in claim 1?
II. Would combining the references as proposed destroy the operation
principle of the prior art invention being modified?
ANALYSIS
Based on the record before us, we are not persuaded of error in the
Examiner's rejection of independent claim 1.
I.
A. Predetermined Value
We begin by construing the key disputed limitation of claim 1, "a
predetermined value" within the recitation "said comer points of said octree
structure with a predetermined value of said distance function, will form said
3D surface." Br. 16 (Claims App'x). A claim is given its broadest
reasonable construction "in light of the specification as it would be
interpreted by one of ordinary skill in the art." In re Am. Acad. of Sci. Tech.
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Ctr., 367 F.3d 1359, 1364 (Fed. Cir. 2004) (citation omitted). We presume
that claim terms have their ordinary and customary meaning. See In re
Translogic Tech., Inc., 504 F.3d 1249, 1257 (Fed. Cir. 2007).
Appellants' Specification does not define the term "predetermined
value." See generally Spec. In fact, as noted by Appellants in their
summary of the invention (Br. 3 (citing Spec. 8:4--15, Fig. 3)), the
Specification discusses a distance function but does not address a
predetermined value. Spec. 8:4--15. The Specification later states the
distance metric d'=O shown in Figure 5b is "particularly interest[ing]" (Spec.
9:22) for generating the ISO surface, but this metric is not described as a
predetermined value. Spec. 9: 15-24, Fig. 5b.
We therefore construe the term in accordance with its plain or
ordinary meaning. The term "predetermined" is defined as "to determine
beforehand," MERRIAM-WEBSTER'S COLLEGIATE DICTIONARY 917 (vt. def.
1 b) (10th ed. 1993); the term "value" is defined as "numerical quantity that
is assigned," id. at 1305 (n. def. 4a). Under its broadest reasonable
interpretation, therefore, the phrase "predetermined value" encompasses an
assigned numerical quantity that is determined beforehand.
Appellants contend Kim discloses "pseudo codes that refer to a range
of values for the distance function rather than 'a predetermined value of said
distance function' as recited in [the] claim." Br. 8 (citing Kim 242). But
Appellants do not provide any specific portion of Kim's pseudocode on page
242 that refers to a "range of values." Nor is value range apparent upon
reviewing the pseudo-code. See Kim 242. Although Kim at page 241
discloses checking if a voxel exists behind a "range of depth" from a
disparity, Appellants have not provided technical reasoning or evidence that
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Kim's "range of depth" on page 241 is "a range of values" in Kim's
pseudocode on page 242 as argued. See Br. 8.
Turning to the Examiner's findings related to the disputed
"predetermined value," Kim discusses 3D modeling. Kim 242--43, cited in
both Final Act. 11-12 and Ans. 13-14. Kim's dvoxel is a distance from a
camera to a projected point M (Kim 241--42, Fig. 4) and dsurris the distance
from the camera to a surface (id. at 240--42). Kim's pseudo-code (id. at 242)
is used to determine if checking points (e.g., comers) of a voxel are (a)
included or excluded from an object and (b) made part of the 3D surface by
using the formula "if (dvoxel > dsurf)." Id. at 242--43. The Examiner finds
"dvoxel > dsur?' in pseudo-code is equivalent to a distance function "dvoxel -
dsurf> O." Final Act. 11; Ans. 14. Similar to the Specification previously
discussed, Kim at least suggests to an ordinary artisan that its octree
structure's comer points are used to form the 3D surface and are associated
with a predetermined value ( e.g., an assigned numerical quantity "O" that is
determined beforehand) of a distance function (e.g., defined by dvoxel - dsurf)
(the claimed "distance function"). See Final Act. 11-12; see also Ans.
13-14. Thus, when combined with Pavlovskaia, Tian, and Falkenhagen, the
resulting system teaches or suggests the disputed limitation.
B. Reliability Information Provided by Camera(s)
Next, Appellants contend "Falkenhagen's reliability information is
invalid" because it is not provided by one or more cameras. Br. 8 ( citing
Falkenhagen§§ 2 and 3.1). This argument is unavailing. Tian teaches
receiving reliability data from one or more cameras. See Final Act. 9-10
and Ans. 14 (both citing Tian ,r,r 22-23, Fig. 1). Falkenhagen was cited for a
limited purpose, namely that it was known to an ordinarily skilled artisan to
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use reliability information to build a 3D surface. See Final Act. 10. The
rejection proposes to combine this limited teaching to the Pavlovskaia/Tian
system to teach the disputed limitation. Final Act. 10-11. In short,
Appellants' argument regarding the individual shortcoming of Falkenhagen
does not show nonobviousness where, as here, the rejection is based on
Pavlovskaia, Tian, and Falkenhagen's collective teachings. See In re Merck
& Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986).
Appellants further cite the Manual of Patent Examiner Procedure
(MPEP) § 2144.06 and contend "the proposed combination is improper"
because "the cited references provide no guidance to indicate the reliability
information allegedly disclosed in Tian nor Falkenhagen references are
equivalent." Br. 10. We are not convinced.
Contrary to Appellants' contention, the Examiner does not rely on
equivalence as a rationale5 to support a conclusion that the claim would have
been obvious. Br. 10. Rather, Tian teaches or suggests capturing image data
from cameras that includes reliability information. Final Act. 9-10 ( citing
Tian ,r,r 1, 12, 22-23, Fig. 1). Falkenhagen teaches it is known to use
reliability information, such as that taught by Tian, to build a 3D surface.
See Final Act. 10-11. The Examiner has not proposed substituting
Falkenhagen's reliability information for Tian's reliability information or
combining the reference's reliability information as Appellants suggest. See
Br. 10.
5 In order to rely on equivalence as a rationale for supporting an obviousness
rejection, the equivalency must be recognized in the prior art, and cannot be
based on applicant's disclosure or the mere fact that the components at issue
are functional or mechanical equivalents. In re Ruff, 256 F. 2d 590 (CCPA
1958); see MPEP § 2144.06.
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Moreover, the Examiner concludes it would have been obvious to one
of ordinary skill in the art "to combine Pavlovskaia in view of Tian with
Falkenhagen .... The suggestions/motivations to improve the Pavlovskaia
and Tian's method with ... Falkenhagen 'reduces the temporal incoherence
and increases the accuracy of depth estimation."' Final Act. 10-11 ( citing
Falkenhagen § 1, ,r 2) ( emphasis added). The Examiner thus has provided
some reason with a rational underpinning for combining the references,
consistent with KSR International Co. v. Teleflex Inc., 550 U.S. 398, 416-
421 (2007), such that the combination is proper.
II.
Tian and Falkenhagen
Next, Appellants cite MPEP § 2143.02 6 and assert that, because Tian
and Falkenhagen disclose different and conflicting techniques for
determining the reliability information, "the proposed combination would
not be a properly functioning system based on Tian." Br. 9 (citing Tian
,r,r 17, 23 and Falkenhagen§§ 2 and 3.1). In particular, Appellants argue
Falkenhagen's reliability measures are provided by computing a depth map
from a disparity map and a depth estimation approach, whereas Tian's
reliability measures are provided by a range camera that generates a
6 Notably,§ MPEP 2143.01 contains a sub-section titled "The Proposed
Modification Cannot Change the Principle of Operation of a Reference."
MPEP § 2143.0l(IV) (9th ed. Rev. 08.2017, Jan. 2018). Section 2143.02 of
the MPEP is titled "Reasonable Expectation of Success Is Required." Id.
§ 2143.02.
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confidence map reflecting confidence of a depth map's accuracy. Id. We
are not persuaded.
Appellants' arguments concerning modifying Tian and Falkenhagen
(Br. 9) do not address the Examiner's proposed rejection. Notably, as
discussed above, the Examiner proposes including particular features of
Falkenhagen into "Pavlovskaia in view of Tian" (Final Act. 1 O}-not
incorporating features of Falkenhagen into Tian or vice versa.
Appellants also fail to present persuasive evidence or technical
reasoning explaining why Tian and Falkenhagen conflict. Besides
identifying purported differences between Falkenhagen and Tian (Br. 9-10),
Appellants have not convincingly shown that Tian's confidence map (Tian
,r,r 1, 12, 22-23, cited in Final Act. 9-10) discredits the technique of
Falkenhagen's depth estimation (Falkenhagen, Abstract, § 1, cited in Final
Act. 10) such that the references cannot be combined as proposed. Other
than general assertions (Br. 9), Appellants have also not presented sufficient
evidence or technical reasoning explaining why combining Tian and
Falkenhagen with Pavlovskaia as proposed (Final Act. 9-11) would amount
in a "resultant system [that] would not be a properly functioning system
based on Tian" (Br. 9), such as identifying an operation principle for a
reference the proposed modification changes.
Both Tian and Falkenhagen disclose reliability information. See Tian
,r,r 1, 12, 22-23 and Falkenhagen, Abstract, § 1, both cited in Final Act.
9-10. The Examiner finds both Tian and Falkenhagen's reliability
information represent depth values. Ans. 15. The fact that Tian and
Falkenhagen compute the depth map differently (see Ans. 15) does not
change Tian's or Falkenhagen's principle of operation as proposed by the
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Examiner. The rejection does not propose to incorporate Falkenhagen's
depth map technique with Tian. Rather, as previously stated, the rejection
cites to Falkenhagen for the limited purpose of using the resulting reliability
information (see Ans. 15) to form a 3D surface, which was known to
ordinarily skilled artisans. See Final Act. 10-11.
Pavlovskaia and Kim
Next, Appellants assert that because Pavlovskaia uses one computer
and Kim uses four computers, "the resultant system would not be a properly
functioning system." Br. 10 (citing MPEP § 2143.02 and Kim 240-43 (§§
2.3, 3)). We are not persuaded.
Appellants have not presented persuasive evidence or technical
reasoning explaining why combining Pavlovskaia and Kim would not
amount to a properly functioning system. Appellants identify that
Pavlovskaia and Kim use a different number of computers but do not explain
how this difference would change these references' operation or preclude a
reasonable expectation of success in the combination. Kim, when combined
with Pavlovskaia, Tian, and Falkenhagen (Final Act. 11-12), is cited for the
limited purpose of teaching building a 3D model using a distance function,
not to teach the number of computers used. Based on the record, we find
that including Kim's teaching of forming a 3D surface using an octree
structure (Kim 242--43, Fig. 5, cited in Final Act. 11) would not change
Pavlovskaia's principle of operation or, for that matter, any of Tian's or
Falkenhagen's operation principles.
Falkenhagen and Kim
Appellants assert Falkenhagen and Kim disclose conflicting
techniques for disparity estimation. Br. 10-11 (citing Falkenhagen§§ 2 and
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3 .1 and Kim § 2 .2). We are not persuaded. Besides identifying purported
differences between Falkenhagen and Kim, Appellants have not
convincingly shown that Kim's disparity estimation discredits the technique
of Falkenhagen's disparity estimation to the extent that it would have led the
ordinarily skilled person to reject Kim's technique. Also, as previously
stated, the rejection does not propose to use Kim's disparity technique to
provide reliability measurements, but rather relies on Kim for the limited
purpose of building a 3D surface by calculating a distance function at an
octree structure's comer points. Final Act. 11-12. As such, the combination
does not propose to alter Falkenhagen's reliability information and its
approach to gathering reliability information (Final Act. 10-11 ), such that
any conflicting techniques asserted by Appellants exist.
Remaining Assertions
We have considered Appellant's remaining assertions but are not
persuaded. See Br. 11 ( asserting "Tian and Kim require [a] different number
of stereo cameras" ( emphasis omitted), "Kim discloses a real-time 3D
modeling system for video generation," "Pavlovskaia, Tian and Falkenhagen
generate a 3D model but not video," and "their techniques are not disclosed
to be real-time 3D modeling."). Appellants point to differences in the prior
art, including some unrelated to claim 1, without identifying deficiencies in
the Examiner's findings and conclusions. "[I]t has long been the Board's
practice to require an applicant to identify the alleged error in the examiner's
rejections." In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011).
For the foregoing reasons, Appellants' arguments have not persuaded
us of error in the rejection of independent claim 1 and claims 3, 4, 15, 17,
18, 21, 23, 24, 27, 28, 30, and 31 which are not separately argued.
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III. Claim 29
The Examiner finds Tian, in combination with Pavlovskaia and
Falkenhagen, teaches the features of claim 29. Final Act. 15 ( citing Tian
,r 14, Fig. 1 ); Ans. 19--20. Appellants argue Tian does not teach receiving
reliability information as input from stereo cameras but rather from range
camera 140. Br. 13-14 (citing Tian ,r,r 13, 15, 23).
Claim 1 recites, in pertinent part, "[a] method ... comprising the steps
of: receiving ... said at least one image data as an input from one or more
cameras, said at least one image data comprising 2D+z data and reliability
information" (Br. 16 (Claims App'x)), and claim 29 further recites "[t]he
method of claim 1, wherein said one or more cameras comprise stereo
cameras" (Br. 21 (Claims App'x)). We emphasize the transitional word,
"comprising" in claim 29 here, because this term is presumptively open-
ended. Gillette Co. v. Energizer Holdings Inc., 405 F.3d 1367, 1371 (Fed.
Cir. 2005). Claim 1 requires the "one or more cameras" ( e.g., a camera
system) to receive "at least said one or more image data as an input," and
claim 29 requires the "one or more cameras" ( e.g., the camera system)
comprises stereo cameras. Given this open-ended "comprising" phrase
modifying the "one or more cameras" ( e.g., a camera system) in claim 29,
the claim's broadest reasonable construction requires only that at least some
of the "one or more cameras" are stereo cameras but, notably, does not
require receiving "at least one image data" (i.e., the 2D+z data and reliability
information) as an input from only the stereo cameras in claim 29. Nor does
claim 29 require receiving the two specifically-recited image data parts (i.e.,
both 2D+z data and reliability information) as an input from stereo cameras.
See Ans. 19.
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This claim construction is consistent with In re Varma, 816 F.3d 1352
(Fed. Cir. 2016), which states:
Although the transitional term "comprising" indicates that the
claim is open-ended, the term does not render each limitation or
phrase within the claim open-ended .... "Comprising" means
that the claim can be met by a system that contains features
over and above those specifically required by the claim
element, but only if the system still satisfies the specific claim-
element requirements: the claim does not cover systems whose
unclaimed features make the claim elements no longer satisfied.
Id. at 1362. That is, the phrase "said method comprising" in claim 1 does
not render the recitation "receiving ... said at least one image data as an
input from one or more cameras" open-ended. But, using the term
"comprise" in claim 29 to modify "said one or more cameras" renders the
phrase, "one or more cameras" in claim 29, originally recited in claim 1
from which claim 29 depends, open-ended. Notably, claim 29 as recited
differs from a recitation, such as "said one or more cameras consists of
stereo cameras" or "said one or more cameras are stereo cameras."7
Moreover, this construction still gives appropriate weight to claim 29's
limitation, which narrows claim 1 to require that the "one or more cameras"
(e.g., a camera system) includes stereo cameras, whereas claim 1 need not
include stereo cameras.
Turning to the proposed rejection, the Examiner finds Tian at least
suggests one or more cameras that receive reliability information as an input.
7 In accordance with Varma, such a hypothetical recitation would require the
recited "at least one image data" (including both the 2D+z data and the
reliability information) to be received from only the stereo cameras because
the "one or more cameras" while also allowing for other image data to be
received by other cameras.
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Final Act. 9--10 (citing Tian ,r,r 1, 12, 22-24). We agree. Tian's camera
system 125 includes range camera 140 and vision cameras 150. Tian ,r 13,
Fig. 1. Tian' s range camera 140 provides the image ( e.g. receives image
data) and can generate confidence maps based on received light intensity and
variance; Tian's vision cameras 150 are a stereo vision pair obtaining other
information. Id. ,r,r 13-14, 17, 23. Thus, Tian discloses a camera system
125 that includes range camera 140 and vision cameras 150, which teaches
the claimed "one or more cameras." Tian also teaches (1) receiving
reliability information "from one or more cameras" (i.e., Tian receives
reliability information from range camera 140) and (2) camera system 125
includes other cameras ( e.g., vision cameras 150) that "comprise stereo
cameras," as recited in claim 29. To the extent Appellants contend that Tian
does not teach receiving reliability information as input from stereo cameras
(Br. 12-13), such an argument is not commensurate with claim 29's scope,
which does not preclude receiving the reliability information as input from
other cameras of the recited "one or more cameras."
Accordingly, we sustain the Examiner's rejection of claim 29.
THE OTHER OBVIOUSNESS REJECTION
Finally, Appellants argue claims 5, 6, 19, 20, 25, and 26 as a group.
Br. 14--15. We select claim 5 as representative. See 37 C.F.R.
§ 41.3 7 ( c )( 1 )(iv). Claim 5 depends from claim 1 and further recites, in
pertinent part, "receiving an input 3D model; and projecting said input 3D
model to generate model 2D+z data and reliability information; wherein said
step of building said 3D model comprises using said model 2D+z data and
reliability information." Br. 17 (Claims App'x).
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The Examiner relies on Falkenhagen and Smith to teach these specific
features of claim 5. Final Act. 15-17. Appellants assert that, because Tian
and Smith disclose different and conflicting cameras/uses for the cameras,
the resultant system would not be a properly functioning system based on
Tian. Br. 14--15 (citing MPEP § 2143.02 and Kim§§ 2.3 and 3). We are
not persuaded.
First, Appellants' arguments concerning modifying Tian and Smith do
not correspond with the Examiner's proposed rejection. Notably, the
Examiner proposed including features of Tian into Pavlovskaia (see Final
Act. 10) and Smith into "Pavlovskaia in view of Tian, Falkenhagen and
Kim" (id. at 17}-not incorporating features of Tian into Smith alone or vice
versa.
Second, Appellants' arguments concerning Smith's camera and use of
the camera is not germane to the limited purpose for which Smith was cited,
namely for "receiving an input 3D model and storing it, projecting the stored
model into views (corresponding to 2D image data), and generating a 3D
model using the 2D views." Final Act. 16-17 (citing Smith ,r 188); Ans.
20-21. Thus, Appellants have not persuasively explained why (1) Tian and
Smith cannot be combined to achieve a properly functioning system (Br.
14--15) as the rejection is proposed, (2) Tian discredits Smith's technique to
the extent that it would have led the skilled person to reject that technique
(id. at 14), or (3) the proposed modification would change the principle of
operation of the prior art invention (id. at 15).
Therefore, we sustain the Examiner's rejection of claim 5 and claims
6, 19, 20, 25, and 26, which Appellants do not separately argue.
17
Appeal 2018-003611
Application 14/391,439
DECISION
We affirm the Examiner's rejections of claims 1, 3---6, 15, 17-21, and
23-31 under 35 U.S.C. § 103(a). No time period for taking any subsequent
action in connection with this appeal may be extended under 37 C.F.R.
§ 1.136(a). See 37 C.F.R. § 41.50(±).
AFFIRMED
18
UNITED STATES PATENT AND TRADEMARK OFFICE
BEFORE THE PATENT TRIAL AND APPEAL BOARD
Ex parte DONNY TYTGAT, SAMMY LIEVENTS,
and MAARTEN AERTS
Appeal 2018-003611
Application 14/391,439
Technology Center 2600
JEFFERY, Administrative Patent Judge, CONCURRING-IN-PART:
I join the majority in its decision except for its affirming the rejection
of claim 29. Claim 29 depends from independent claim 1 that recites, in
pertinent part, receiving at least one image data as an input from one or more
cameras. Claim 29 adds that the one or more cameras comprise stereo
cameras.
The majority reasons that because the term "comprise" in claim 29 is
open-ended, the image data need not be received from a stereo camera, but
rather from some other unrecited camera. See Maj. Dec. 15-16. This
construction, however, effectively reads the term "stereo cameras" out of the
claim.
The words "comprising," "comprises," or "comprise" are terms of art
used in claim language to mean that the named elements are essential, but
other elements may be added and still form a construct within the scope of
the claim. See Genentech, Inc. v. Chiron Corp., 112 F.3d 495, 501 (Fed.
1
Appeal 2018-003611
Application 14/391,439
Cir. 1997). I emphasize the term "essential" here, for the stereo cameras of
claim 29 are just that: they are essential to the claimed invention, but other
cameras may be added and still fall within the scope of the claim.
The Federal Circuit emphasized this fundamental notion in In re
Varma, 816 F.3d 1352 (Fed. Cir. 2016) that noted the following:
Although the transitional term "comprising" indicates that the
claim is open-ended, the term does not render each limitation or
phrase within the claim open-ended .... "Comprising" means
that the claim can be met by a system that contains features
over and above those specifically required by the claim
element, but only if the system still satisfies the specific claim-
element requirements: the claim does not cover systems whose
unclaimed features make the claim elements no longer satisfied.
Id. at 1362.
Here, claim 29 requires receiving image data from at least one stereo
camera, but the open-ended "comprising" language does not preclude also
receiving image data from other cameras. To construe the claim otherwise,
as the majority has done, ignores the essential element in the claim-the
stereo cameras-in favor of some unrecited element. Not only does this
approach effectively read the term out of the claim, it runs counter to the
Federal Circuit's mandate to the contrary in Varma.
I, therefore, respectfully dissent with the majority's decision to affirm
the Examiner's rejection of claim 29, but join the majority's opinion in all
other respects.
2
Application/Control No. Applicant(s)/Patent Under Patent
Appeal No.
Notice of References Cited
14/391,439 2018-003611
Examiner Art Unit
2611
U.S. PATENT DOCUMENTS
*
Document Number Date
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A US-
B US-
C US-
D US-
E US-
F US-
G US-
H US-
I US-
J US-
K US-
L US-
M US-
FOREIGN PATENT DOCUMENTS
*
Document Number Date
Country Code-Number-Kind Code MM-YYYY Country Name
N
0
p
Q
R
s
T
NON-PATENT DOCUMENTS
* Include as applicable: Author, Title Date, Publisher, Edition or Volume, Pertinent Pages)
u Merriam Webster's Collegiate Dictionary Tenth Edition
V
w
X
*A copy of this reference is not being furnished with this Office action. (See MPEP § 707.05(a).)
Dates in MM-YYYY format are publication dates. Classifications may be US or foreign.
U.S. Patent and Trademark Office
PT0-892 (Rev. 01-2001) Notice of References Cited Part of Paper No.
Page 1 of 1
Classification
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