14073418 - (D) (P.T.A.B. Oct. 16, 2020)

LOCATOR IP, L.P.

Patent Trials and Appeals BoardOct 16, 2020

14073418 - (D) (P.T.A.B. Oct. 16, 2020)

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. 14/073,418 11/06/2013 Steven A. ROOT 134602.00215 4585 27557 7590 10/16/2020 BLANK ROME LLP 1825 Eye Street NW WASHINGTON, DC 20006-5403 EXAMINER BOYCE, ANDRE D ART UNIT PAPER NUMBER 3623 NOTIFICATION DATE DELIVERY MODE 10/16/2020 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): WashingtonDocketing@blankrome.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________________ Ex parte STEVEN A. ROOT and MICHAEL R. ROOT __________________ Appeal 2020-003329 Application 14/073,418 Technology Center 3600 ____________________ Before JAMES P. CALVE, BRUCE T. WIEDER, and KENNETH G. SCHOPFER, Administrative Patent Judges. CALVE, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the decision of the Examiner to reject claims 14–20 and 22–30.2 We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM IN PART. 1 “Appellant” refers to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies Location IP, L.P. as the real party in interest. Appeal Br. 3. 2 Claims 1–8 and 21 are cancelled. Claims 9–13 are withdrawn. See Appeal Br. 3 (Status of Claims), 18–20 (Claims Appendix); Non-Final Act. 2. Appeal 2020-003329 Application 14/073,418 2 CLAIMED SUBJECT MATTER Claims 14 and 26 are independent. Claim 14 is reproduced below. 14. A method of outputting weather or environmental condition information to a user, the method comprising: storing user profiles associated with users in a user profile database, the user profiles including a user identifier code for identifying a communicator device associated with the user; receiving, by a weather analysis unit, weather or environmental condition information from weather and environmental sensors; receiving real-time data indicative of the spatial locations of the communicator devices; storing the real-time data indicative of the spatial locations of the communicator devices in a communicator location database; determining whether at least one communicator device is located in close proximity to the location of one or more of the weather and environmental sensors; and outputting the weather or environmental condition information received from the one or more weather and environmental sensors in close proximity to the at least one communicator device to a communication network for transmittal to the at least one communicator device in response to a determination that the at least one communicator device is in close proximity to the one or more weather and environmental sensors. REJECTIONS Claims 14 and 22–30 are rejected under 35 U.S.C. § 103(a) as unpatentable over Torres Sabate (US 6,861,959 B1, iss. Mar. 1, 2005), Kelly (US 6,498,987 B1, iss. Dec. 24, 2002), Bar (US 6,456,852 B2, iss. Sept. 24, 2002), and Terui (US 7,084,757 B2, iss. Aug. 1, 2006). Claim 15 is rejected under 35 U.S.C. § 103(a) as unpatentable over Torres Sabate, Kelly, Bar, Terui, and further in view of Official Notice. Appeal 2020-003329 Application 14/073,418 3 Claims 16–20 are rejected under 35 U.S.C. § 103(a) as unpatentable over Torres Sabate, Kelly, Bar, Terui, and Truesdell (US 5,229,975, iss. July 20, 1993). ANALYSIS Claims 14 and 22–30 Rejected Over Torres Sabate, Kelly, Bar, and Terui Regarding claim 14, the Examiner relies on Torres Sabate to teach a method of outputting weather or environmental conditions by receiving weather or environmental data and outputting weather or environmental warnings and messages. Non-Final Act. 3–4. The Examiner relies on Kelly to teach storing user profiles with a code to identify a communicator device of a user and transmitting weather and environmental data to the device in the user profile. Id. at 4–5. The Examiner relies on Bar to teach real-time location and identifier data of users and communicator devices. Id. at 6. The Examiner relies on Terui to teach transmission of safety information by searching a constant space to determine if a desired party is within range for possible data transmission and, after validating a device, transmitting safety and other data to portable terminal 1 within range (i.e., close proximity) of safety provision equipment 2 as claimed. Id. at 7–8; see Ans. 4–5. Appellant argues that Torres Sabate does not teach outputting weather or environmental conditions received from a sensor for transmission to a communicator device in response to a determination that the communicator device is in close proximity to the sensor as claimed because the transmitter continuously transmits radio beacon signals containing hazardous condition information. Appeal Br. 9–10. Resolution of this argument requires a claim construction of this limitation. Appeal 2020-003329 Application 14/073,418 4 The plain language of claim 14 states that weather or environmental condition information received from one or more sensors is transmitted to a communicator device “in response to a determination that the at least one communicator device is in close proximity to the one or more weather and environmental sensors.” Appeal Br. 19 (Claims App.). No other details are recited for how data is provided “in response to” a determination. Claim 22, which depends from claim 14, states that this step comprises “determining a unique spatial range of each of the one or more weather or environmental sensors; and determining whether the at least one communicator device is within the unique spatial range of the one or more environmental sensors.” Id. at 20. Claim 14 does not recite these features, however. Appellant’s Specification describes this process as follows: when sensor data is collected by sensors 48a positioned on moving vehicles along roadways or railways, the weather analysis unit 12b can transmit such weather information to communicator devices 11b located in close proximity to where the sensor data is being collected. Thus, assuming that a Federal Express truck is located 5 miles from a subscriber, the information collected from the sensor on the Federal Express truck can be transmitted to the subscriber. Spec. ¶ 75; see Appeal Br. 5 (Summary of Claimed Subject Matter) (citing paragraph 75 as the description of this limitation). Consistent with the claim language interpreted in light of the Specification, we interpret this limitation to encompass transmission of weather/environmental condition information to devices in close proximity to a sensor detecting that information. See MBO Labs., Inc. v. Becton Dickinson & Co., 474 F.3d 1323, 1333 (Fed. Cir. 2007) (“A claim interpretation that excludes a preferred embodiment from the scope of the claim is rarely, if ever, correct.”) (citation omitted). Appeal 2020-003329 Application 14/073,418 5 Torres Sabate teaches a similar arrangement where a radio transmitter (Figure 2c) transmits weather/environmental condition data detected by a sensor on the transmitter to communicator devices in close proximity to the transmitter and its sensor. See Torres Sabate, 7:1–8:42; 4:48–5:67. The data apprises users with mobile receivers (Figure 2b) in close proximity to the transmitter and sensor of weather and environmental conditions in that area. Id. Users in close proximity to the transmitter/sensor can be warned of fog, snow, rain, wind, and similar conditions. Id. at 7:1–39. The transmitter also warns users in close proximity to trucks with hazardous materials and other environmental conditions. Id. at 4:49–5:26; 7:1–39. Torres Sabate senses weather and environmental conditions in an area and warns users in close proximity to that area where sensors detected the conditions. Id.; Ans. 4. Even if we interpret this limitation to require transmission to occur in response to an affirmative determination that a communicator device is in close proximity to the sensor, Terui teaches this feature as the Examiner correctly finds. Non-Final Act. 7. Indeed, Appellant acknowledges that Terui transmits safety information to communicator devices (e.g., portable terminal 3) if the portable terminal 3 is determined to be within range of the safety information provision equipment 2. Appeal Br. 11 (“Terui further states that the safety information provision equipment 2 outputs safety information (and the position of safety information provision equipment 2) to a second portable terminal 3 if the second portable terminal 3 is within range of the safety information provision equipment 2.”). Appellant argues that the transmission does not occur in response to a determination that one portable terminal 1 is in close proximity to another portable terminal 3. Id. This argument mischaracterizes the Examiner’s rejection. Non-Final Act. 8. Appeal 2020-003329 Application 14/073,418 6 We agree with the Examiner that Terui transmits safety information from safety provision equipment 2 to portable terminals 1, 3 determined to be in close proximity so that transmission is possible. Non-Final Act. 7. In particular, safety information provision equipment 2 searches a constant area to determine if a communicator device (portable terminal 1, 3) is in range so data transmission is possible and transmits safety information in response to determining portable terminal 1/3 is in close proximity. Terui, 2:35–5:30; see Ans. 4–5. Appellant acknowledges this teaching. See Appeal Br. 11–12. The Examiner does not treat either portable terminal 1, 3 as a sensor or data transmission as occurring in response to a determination that portable terminal 1 is in close proximity to portable terminal 3 as Appellant argues. Id.; Non-Final Act. 7–8; Ans. 4–5. The Examiner relies on Terui to teach safety information provision equipment 2 that receives safety information for an area of concern and transmits that data in response to a determination that a communicator device (portable terminal 1, 3) is in close proximity to equipment 2 after being validated. Non-Final Act. 7–8; Ans. 4–5. As discussed above, Torres Sabate transmits weather/environmental information from a transmitter and sensor to portable receivers of users in close proximity to the transmitter/sensor. Torres Sabate, 4:49–5:26; 7:1–39. Terui teaches a protocol for such a fixed transmitter and sensor to transmit weather/environmental data to a communicator device in close proximity to the transmitter after validating the device. Terui, 2:35–5:30. Terui searches an area of concern to determine whether portable terminal 1, 3 is in range for transmission from equipment 2 and after determining that portable terminal 1, 3 is in close proximity, performs validation and transmits the data. See id. As modified, Torres Sabate provides this same capability. Non-Final Act. 8. Appeal 2020-003329 Application 14/073,418 7 Because Torres Sabate configures a fixed transmitter with sensors, the transmission of weather/environmental condition data in response to a user portable device being in close proximity to the fixed transmitter places the communicator device in close proximity to the sensor(s) and the transmitter. Torres Sabate uses this transmission protocol to warn users who are in close proximity of hazardous weather/environmental conditions detected in that area by a sensor(s) in the same area. Torres Sabate, 4:48–7:39, Figs. 2b, 2c. Appellant’s Specification also describes notifying users who enter an “area of concern” of weather conditions detected in that area. Spec. ¶¶ 54, 55. Sensors can be located on structures with their own power source such as a billboard, gas pump, cell phone tower, or sign along a road. Spec. ¶ 72. The Examiner reasonably determines that Terui’s teachings would improve Torres Sabate similarly by determining if a portable receiver of a user is in close proximity to a sensor such that the user is notified of weather or environmental conditions detected by the sensor in that area of concern. See Non-Final Act. 8; see also KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 417 (2007) (use of known technique in similar devices for similar benefits is obvious unless its application is beyond the level of ordinary skill in the art). Moreover, like Torres Sabate, Terui detects weather conditions in an area of concern and notifies users in that region of dangerous conditions to include dangerous weather conditions. Terui, 2:36–6:3, 6:61–7:64. Appellant’s arguments that Kelly, Bar, and Truesdell fail to teach this feature (Appeal Br. 12–13) do not address the Examiner’s reliance on Torres Sabate and Terui to teach this limitation as discussed above. Accordingly, and for the foregoing reasons, we sustain the rejection of claim 14. Appeal 2020-003329 Application 14/073,418 8 Independent Claim 26 Claim 26 recites a similar method to claim 14 except that claim 26 recites “receiving environmental condition information from environmental sensors” and outputting the information to a communicator device in response to a determination that the communicator device is in close proximity to the environmental sensor(s), as opposed to “weather and environmental sensors” in claim 14. The Examiner cites the same teachings of Torres Sabate, Kelly, Bar, and Terui as for claim 14 to include teachings of environmental condition sensors. Non-Final Act. 8–9; Ans. 5–6. Appellant argues that only location-specific weather condition data is available from prior art systems such as those described in Kelly and Torres Sabate and location-specific environmental condition information is more difficult to find as prior art systems do not exist to output such data. Appeal Br. 14. Appellant argues that Torres Sabate does not teach environmental condition information received from an environmental sensor for transmittal to a communicator device in response to a determination that the device is in close proximity to the environmental sensor. Id. at 15. We agree with the Examiner that Torres Sabate senses environmental conditions as claimed. The Specification indicates that sensors can be any type used to forecast and transmit weather or environmental conditions. Spec. ¶ 70. Sensors sample air temperature, humidity, precipitation, solar radiation, wind speed and direction, and soil temperature, moisture, and/or chemical constituents. Id. Torres Sabate senses environmental conditions such as road conditions, repair work, accidents, low visibility, and hazardous materials. Torres Sabate, 4:49–5:26, 7:1–8:42. Torres Sabate transmits the conditions to portable receivers in close proximity to the transmitter. See id. Appeal 2020-003329 Application 14/073,418 9 Like, Torres Sabate, Terui detects and transmits environmental safety and danger information. Terui, 5:6–6:3, 6:61–7:24. Terui transmits weather and environmental safety conditions and warnings to portable devices that are in close proximity to an area of danger to warn users of the dangerous conditions in the area. Id. at 2:36–7:24. Terui limits transmissions to user devices in close proximity to the dangers and most likely to be impacted by those dangerous conditions to reduce unnecessary alerts and excessive data traffic. Id. at 5:6–62, 6:61–7:64. As a result, environmental condition data can be provided only to communicator devices of users in close proximity to a detected region of danger. See id. at 6:61–7:58. Both references provide environmental condition data under a broadest reasonable interpretation. Accordingly, we sustain the rejection of claim 26. Claims 22–25 and 27–30 Claims 22 and 27 depend, respectively, from claims 14 and 26 and recite that the step of determining whether a communicator device is in close proximity to the location of a sensor comprises “determining a unique spatial range of each of the one or more weather or environmental sensors; and determining whether the at least one communicator device is within the unique spatial range of the one or more weather or environmental sensors.” Appeal Br. 20, 21 (Claims App.). The Examiner finds that Terui teaches this feature as data transmission and reception circuit 201 of safety information provision equipment 2 searches a constant area of space for the presence of a portable terminal 1 and if portable terminal 1 is within a range at which data transmission is possible, commences data transmission to portable terminal 1 by notifying portable terminal 1 that portable terminal 1 is within the range in which transmission is possible. Non-Final Act. 9–10; Ans. 6–7. Appeal 2020-003329 Application 14/073,418 10 Appellant argues that claims 22 and 27 require “determining whether one of the communicator devices is located in close proximity to” a sensor and “determining whether the at least one communicator device is within the unique spatial range” of the sensor, but Terui determines whether a portable terminal 1, 3 is within the transmission range of safety information provision equipment 2 and requests data transmission if it is within range. Appeal Br. 16. Appellant argues that determining whether a terminal is in transmission range of a transmitter is not the same as determining whether a device is within range of the effective range of a weather or environmental sensor. Id. Appellant asserts that neither portable terminals 1, 3 nor safety information provision equipment 2 is a weather or environmental sensor as claimed and the Examiner has not addressed how Terui teaches a unique spatial range of safety information provision equipment 2 is determined based on a type of weather or environmental information monitored. Id. The Specification indicates that sensor 48b of sensor network 48a may have a unique spatial range such as a five or twenty mile radius. Spec. ¶ 69. The spatial range can be selected based on the sensor type and purpose. Id. The spatial range of sensor 48b used to detect soil moisture may be 375 feet. Id. The spatial range of sensor 48b used to determine soil temperature may be 2,000 feet. Id. The Examiner has not explained how determining whether a portable terminal 1 is within the transmission range of safety information provision equipment 2, i.e., “[i]f portable terminal 1 is within the range in which data transmission is possible with safety information provision equipment 2,” (Terui, 3:48–50) teaches or suggests determining a spatial range of a sensor and whether a communicator device is within that unique spatial range. Appeal 2020-003329 Application 14/073,418 11 Accordingly, we do not sustain the rejection of claims 22 and 27. Nor do we sustain the rejection of claims 23–25 or 28–30, which depend from claims 22 and 27 respectively.3 Claim 15 Rejected Over Torres Sabate, Kelly, Bar, Terui, and Official Notice Appellant does not present arguments for the rejection of claim 15, which depends directly from claim 14. See Appeal Br. 8–17. Thus, we summarily sustain this rejection. Claims 16–20 Rejected Over Torres Sabate, Kelly, Bar, Terui, and Truesdell Appellant does not present arguments for the rejection of claims 16– 20, which depend directly from claim 14. See Appeal Br. 8–17. Thus, we summarily sustain this rejection. CONCLUSION In summary: Claims Rejected 35 U.S.C. § Reference(s)/ Basis Affirmed Reversed 14, 22–30 103(a) Torres Sabate, Kelly, Bar, Terui 14, 26 22–25, 27– 30 15 103(a) Torres Sabate, Kelly, Bar, Terui, Official Notice 15 16–20 103(a) Torres Sabate, Kelly, Bar, Terui, Truesdell 16–20 Overall Outcome 14–20, 26 22–25, 27– 30 3 The Examiner cites the same teachings of Terui for claims 23–25 and 28– 30 as the Examiner cites for claims 22 and 27. See Non-Final Act. 10–12. Appeal 2020-003329 Application 14/073,418 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). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED IN PART