April 6th, 2016
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` jim@parsec.ca
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` +1-416-302-7501
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`James Parker
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` Electronic Security Systems & Sensors
` Electronics R&D – Product Development
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` Over 33 years’ relevant industry experience, “hands on” to
`senior levels. Executive and strategic leadership.
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` Past Vice President of Engineering for Digital Security
`Controls Ltd. (DSC), a leading global manufacturer of
`electronic security systems and components with sales
`exceeding $400 million annually. (www.dsc.com)
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` Numerous products researched and developed including
`wired and wireless Alarm Systems, Motion Detectors, Solar
`Smart LED illuminators and many other similar devices.
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` Named Inventor on over 25 patents.
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`Partial Client List: Cravath, Swaine & Moore LLP | Weil, Gotshal & Manges LLP
` Fish & Richardson PC | Duane Morris LLP | Coleman Research Group
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`2GIG Technologies | Nest Labs | Alarm.com | AT&T Digital Life Inc.
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`Summary:
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`Technical, managerial and executive expertise in the research, development, design and
`manufacturing of electronic based products such as Security Systems, Burglar Alarm Systems,
`Intrusion Detection Systems, Home Automation Systems, Occupancy Detection Systems,
`Premise Monitoring Systems, Fresnel and Mirror Optic PIR (Passive Infra-Red) Motion Detectors,
`Microwave Doppler Motion Detectors, Solar Powered, Motion Controlled, LED illumination
`Systems and many other similar devices. From initial concept to mature production.
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`Executive and strategic leadership. Principal product architect. Highly credible with customers,
`distributors and suppliers. Extensive proven track record of commercially successful innovative
`product developments. In-depth knowledge of electronic product design in both wired and
`wireless technologies. Outstanding knowledge of environmental and false alarm immunity.
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`Excellent English language and presentation skills (accomplished presenter). Ability to explain
`complex technical material in a straight forward manner. International experience. Able to travel
`as required.
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` www.parsec.ca
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` Page 1
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`SecureNet Technologies, LLC Exhibit 1013 Page 1
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`James Parker
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`List of Patents by Priority Date (James Parker as a Named Inventor)
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` Wireless Alarm System (1993)
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` Method And Arrangement For Recognition Of A Coded Transmitted Signal (1994)
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` Security System With Two Signal Reporting (1997)
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` Home Automation And Security System Controller (1997)
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` Controllable Still Frame Video Transmission System (1997)
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` Programmable Temperature Sensor For Security System (1998)
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` Suspended Code For Alarm System (1998)
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` Biometric Input Device For Security System (1998)
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` Dual Mode Panel (1999)
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` Alarm System Using Local Data Channel (1999)
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` Alarm System With Programmable Device Control (2000)
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` Security Alarm Keypad With Message Alert (2000)
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` Remote Recovery Arrangement For Alarm System (2000)
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` Security Alarm Keypad With Message Alert (2000)
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` Remote Recovery Arrangement For Alarm System (2000)
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` Alarm System With Programmable Device Control (2000)
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`Integrated Lightning Detector (2003)
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` False Alarm Reduction Method And System (2005)
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` Security Device With Built-In Intercommunicated False Alarm Reduction Control (2005)
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`Integrated Detecting Processor (2005)
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` Energy Signal Detection Device Containing Integrated Detecting Processor (2005)
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` Process And System Of Energy Signal Detection (2006)
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` Process And System Of Power Saving Lighting (2007)
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` Process And System Of Energy Signal Detection (2008)
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` Single MCU-Based Motion Detection, Local Alarm And Supervisory Arrangement For Alarm
`System (2008)
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`For more information please click “Patent Summary – James Parker” or refer to page 7 of this
`document.
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` www.parsec.ca
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` Page 2
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`SecureNet Technologies, LLC Exhibit 1013 Page 2
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`James Parker
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`Expert Witness / Technical Consultant Experience (www.parsec.ca)
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`1) Honeywell International Inc. v. 2GIG Technologies, Inc. et al
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`2-09-cv-05156
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`U.S. District Court
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`Eastern District of New York (Central Islip)
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`Patent Infringement
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`Date Filed: 11/24/2009
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`Terminated: 04/07/2011
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` Pla.
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`Def.
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`Honeywell International Inc.
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`Rep. by Kirkland & Ellis LLP
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`2GIG Technologies, Inc.
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`Rep. by Weil, Gotshal & Manges LLP
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`Retained by 2GIG (via Weil, Gotshal & Manges). Honeywell sued 2GIG for patent infringement.
`As an “named inventor” on a prior art patent, I was sought out by WGM. Worked with WGM
`legal team to generate extensive Expert Report, subsequent amendments and responses.
`Provided various additional support based on my history and experience. Prepared and trained
`for Deposition by WGM. Case settled before trial.
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` 2) Honeywell International, Inc. v. Nest Labs, Inc. et al
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`0:12-cv-00299
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`U.S. District Court
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`District of Minnesota (DMN)
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`Patent Infringement
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`Date Filed: 02/06/2012
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`Stayed - Not Active
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` Pla.
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`Def.
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`Honeywell International, Inc. Rep. by Faegre Baker Daniels LLP
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`Nest Labs, Inc.
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`Rep. by Fish & Richardson PC
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`Honeywell is/was actively suing Nest Labs for patent infringement. Contacted by Fish and
`Richardson (Nest Labs Attorneys) and retained. Generated initial Expert Declaration in 2012
`and then a follow up Expert Declaration in 2015. Provided support based on my history and
`experience. Case has been stayed while awaiting response from USPTO.
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` 3) Alarm.com Incorporated v. Telular Corporation
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`1:13-cv-00890
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`U.S. District Court
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`District of Delaware (Wilmington)
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`Patent Infringement
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`Date Filed: 05/20/2013
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`Terminated: 1/9/2014
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`Pla.
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`Alarm.com Incorporated
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`Rep. by Cravath, Swaine & Moore LLP
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` Def.
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`Telular Corporation
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`Rep. by Wilson Sonsini Goodrich & Rosati PC
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`Retained by Cravath, Swaine & Moore, the attorneys for the Plaintiff, Alarm.com Incorporated.
`Performed preliminary review of the case material. Telular was at the time a major customer of
`iControl. When iControl launched their patent infringement case against Alarm.com (see #4
`below), this Telular matter was put on the back burner. The time table of the iControl v.
`Alarm.com matter being much shorter than the Alarm.com v. Telular case. This case settled in
`conjunction with the iControl matter (immediately below).
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`Continued…
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` Page 3
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`SecureNet Technologies, LLC Exhibit 1013 Page 3
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`

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`James Parker
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` 4) iControl Networks, Inc. v. Alarm.com Incorporated et al
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`1:13-cv-00834
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`U.S. District Court
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`Eastern District of Virginia - (Alexandria)
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`Patent Infringement
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`Date Filed: 7/10/2013
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`Terminated: 1/9/2014
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` Pla.
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`Def.
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`iControl Networks, Inc.
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`Rep. by Kaufman & Canoles PC
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`Alarm.com Incorporated
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`Rep. by Cravath, Swaine & Moore LLP
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`Retained (again) by Cravath, Swaine & Moore (see above #3), the attorneys for the Defendant
`Alarm.com Incorporated. Both parties (Alarm.com and iControl) sued each other for patent
`infringement involving a total of 11 patents. Prepared Expert Reports and related documents.
`Assisted in Rebuttal of other sides Expert Reports. Performed both infringement and invalidity
`analysis. Provided multiple possible Prior Art examples. All work done to a very accelerated
`timeframe. Required many late nights, even some through the night sessions with the Cravath
`team working to meet the deadlines. I was prepared and trained extensively for several weeks
`by the team of Cravath Attorneys for my Deposition (regarding my Expert Report). The case
`was settled literally hours before my scheduled Deposition time. Note… This was the second
`time I was fully prepared for Deposition only to have the cases settled before I could be
`deposed. The other time being item #1 above.
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` 5) Script Security Solutions, LLC v. AT&T Digital Life, Inc. et al
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`2:15-cv-00370
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`U.S. District Court
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`Eastern District of Texas (Marshall)
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`Patent Infringement
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`Date Filed: 3/13/2015
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`Terminated: 2/19/2016
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` Pla.
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`Def.
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`Script Security Solutions LLC Rep. by Antonelli, Harrington & Thompson LLP
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`AT&T Digital Life, Inc.
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`Rep. by Duane Morris LLP
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`Retained by the Defendants, AT&T Digital Life via the law firm of Duane Morris. Provided
`multiple examples of prior art. Generated several claim charts. Provided additional support as
`required. Case settled before trial.
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` www.parsec.ca
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` Page 4
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`SecureNet Technologies, LLC Exhibit 1013 Page 4
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`

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`James Parker
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`Industry Experience - Electronic Security Systems & Sensors
` Electronics R&D – New Product Development
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`President at EE-Systems Group Inc. Canada (R&D)
`www.eesgi.com
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`August 2004 - Present
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`Co-founded EE Systems Group Inc. in both Canada (for R&D) and the United States
`(Operations). Oversight for new product and business development. Full management and
`executive responsibility. Developed multiple new technologies and intellectual property. Multiple
`United States, Canadian, Chinese and International patents developed, filed and/or granted.
`Defined and negotiated major corporate contracts with several organizations. Numerous new
`products developed and introduced to production. Developed and licensed our “ePIR” software
`to several multinational companies including Zilog, now part of IXYS for passive infrared motion
`detection (marketed under the name “ZMOTION“). The ePIR / ZMOTION solution provides for
`Intrusion as well as occupancy detection. eFAR100 False Alarm Reduction module developed
`using embedded Z8 MCU technology with firmware written in assembler (machine code). Full
`scalable suite of technology developed for solar powered, motion controlled, LED illumination
`from patio to parking lot sizes.
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`Vice President of Engineering at Tyco Security Products
` (Note: DSC was acquired by Tyco Security Products in December 2001 - See Below)
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`www.tycosecurityproducts.com
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`March 1985 - December 2003 (~19 years)
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`Head of 200+ member engineering department composed of engineers, scientists, technologists
`and technicians. Responsible for all of DSC’s research and product development efforts. Senior
`member of the DSC executive team setting strategic direction for the company. Cross functional
`responsibilities in Marketing, New Business Development and Manufacturing. Development of
`policies, procedures and practices. Financial planning and budget generation. Administration of
`corporate patent investigation, generation and infringement avoidance. Key vendor relationship
`building and negotiations. Major customer presentations and interaction. Principally involved in
`several corporate initiatives such as Six Sigma and ISO900X (quality programs), Speed to
`market, Ethics training, Customer training, Major cost reductions, etc.
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`Director of Engineering at Digital Security Controls (DSC) Limited
`www.dsc.com
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`March 1985 - December 2003 (~19 years)
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`DSC began in 1979 as a basement operation supplying alarm control panels to the Canadian
`market. Joined DSC shortly after the founder, moved the operation out of his basement and into
`a small industrial unit. Staff consisted of the founder, three assembly workers and myself.
`Brought to DSC, microcontroller and other advanced technologies. Experienced extraordinarily
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` www.parsec.ca
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` Page 5
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`SecureNet Technologies, LLC Exhibit 1013 Page 5
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`

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`James Parker
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`successful career that saw DSC expand to become one of the three largest companies in its
`marketplace with worldwide sales in over 120 countries. Growth fueled by optimum combination
`of product feature set, cost and quality. DSC was acquired by TYCO in December of 2001 for
`approximately $400 million dollars.
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`Vice President of Engineering at Swinemaster Inc.
`June 1984 – March 1985
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`In charge of a small R&D team that developed and built several working prototypes of an
`automated baby pig feeder. The multipart component design of the baby pig feeder utilized
`several (up to 10) Zilog Z8 Microcontroller Units (MCU’s) with the software written in assembly
`language (machine code).
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`Technical Sales Representative at Har-Tech Electronics Ltd.
`January 1984 – June 1984
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`Provided sales and technical support to customers (and potential customers) of electronics
`manufacturers represented by Har-Tech Electronics Limited in the greater Toronto area (GTA).
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`Engineering Technologist at Thermetic Controls Limited
`January 1983 – December 1983
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`Designed and implemented production test equipment for baseboard heater safety limit
`switches. Also designed and built working prototype of a digital setback thermostat for
`controlling electric baseboard heaters.
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`Publications
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`The Greek Philosopher Plato and .… False Alarms
`National Burglar and Fire Alarm Association (NBFAA) June 6, 2005
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` www.parsec.ca
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` Page 6
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`Education
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`RCC Institute of Technology
`Toronto, Ontario, Canada
`1980 – 1982
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`Electronic Engineering Technology
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`SecureNet Technologies, LLC Exhibit 1013 Page 6
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`

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`James Parker
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`Summary of Patents – James Parker as a Named Inventor
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` 1) Wireless Alarm System
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`Priority Date
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`December 16, 1993
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`US5625338A, CA2111929A1, CA2111929C, WO9516980A1, AU1104095A, EP0734560B1,
`EP0734560A1, DE69413848T2.
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`A security system having a two way wireless keypad which operates in a particular manner for improved
`operation. The keypad processes information to effectively reduce communications between the control panel and the
`keypad. The keypad selectively activates and deactivates a transmitter and receiver arrangement for power conservation
`reasons. The system provides confirmation of communications between the keypad and the control panel to increase the
`reliability of the system.
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`2) Method And Arrangement For Recognition Of A Coded Transmitted Signal
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`Priority Date
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`July 21, 1994
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`US5517518A, CA2128587A1, AU2508195A, AU692260B2
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`The present invention is for fast, reliable recognition of coded signals where the signal includes a
`predetermined code sequence in a lead portion thereof. This has particular application in spread spectrum transmission
`and receptions. The code sequence is a long sequence of bits known to the receiver which breaks the long sequence
`into a series of bit segments which are more easily analysed. Each series of bits is analysed for a direct match and a
`decision whether a code segment has been received is based on the number of direct matches. For example, if there
`are 8 bit segments, each 16 bits in length, high reliability has been achieved if two direct matches are received within a
`time period corresponding t the transmission time of the code sequence. This system can also be used for assessing
`signal strength where many matches indicate good signal strength, approximately 50% indicates moderate signal
`strength, and less indicating poor signal strength.
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`3) Security System With Two Signal Reporting
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`Priority Date
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`April 22, 1997
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`US5956388A, CA2203323A1, CA2203323C, WO9848564A1, AU7022598A
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`A security system having two distinct channels of communication and which uses a single communication
`device provides improved security. The system monitors a host of security alarm panels connected to a telephone
`system. A status signal is communicated between each control panel and a scanner placed at a switching station of the
`telephone system to confirm the integrity of the communication channel. An alarm event continues to be reported to a
`monitoring station using the telephone system in the normal manner.
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`4) Home Automation And Security System Controller
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`Priority Date
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`April 24, 1997
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`CA2203591A1, WO9849663A1, EP0978111A1, EP0978111B1, AT209385T, PT978111E,
`DE69803282T2, DK0978111T3, ES2168748T3
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`The present invention, in one aspect, is directed to a security system which is capable of acting as an
`information display for display of user selected information not directly related to the security system. Such information
`may include weather information, news reports, sports information and financial information, the display of such
`information is preferably under user control and is selectable to be customized for each individual user. The security
`system includes an interface means for communicating with a data access provider for retrieval of the user selected
`information for display on the keypad controller. In another aspect, the present invention is directed to a controller for
`controlling the function of components of a security system. The controller has a graphical interface comprising a display
`screen capable of displaying a graphical representation of the security system and the components on the screen and
`graphical representation of the user selected information. The graphical display may include a touch screen such that
`the function of the components of the security system are controlled by touching a portion of the screen having the
`component or security system to be controlled displayed thereon.
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` www.parsec.ca
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` Page 7
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`SecureNet Technologies, LLC Exhibit 1013 Page 7
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`

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`James Parker
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`5) Controllable Still Frame Video Transmission System
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`Priority Date
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`August 25, 1997
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`US6642954B1, CA2301858C, CA2301858A1, WO9911069A1, AU4006797A, EP1010328A1,
`EP1010328B1, AU749600B2, DE69713405T2
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`A video capture controller for selective capture of video images from a plurality of video cameras, the capture
`controller having multiple video signal inputs for receiving signals from video source devices, an arrangement for
`receiving input signals from a security system, a processor for processing the received input signals of such
`arrangement and comparing the received signals with a predetermined set of possible received signals and, based
`thereon, determining a particular video capture protocol from a set of video capture protocols associated with the set of
`possible received signals, and a controller associated with the multiple video signal inputs and the processor, the
`controller having a video output, the controller selectively connecting the multiple video inputs with the video output
`based on the particular protocol determined by the processor.
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`6) Programmable Temperature Sensor For Security System
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`Priority Date
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`April 23, 1998
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`US6215405B1, CA2235654C, CA2235654A1, WO9956261A1, AU3402099A, EP1074009B1,
`EP1074009A1, AT214505T, DK1074009T3, DE69901027T2, ES2174598T3
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`The present invention in one aspect, provides for a programmable temperature sensor for a device as part of a
`security or alarm system. The programmable temperature sensor is capable of having multiple set points programmed,
`each set point individually programmable as to effect. In a preferred embodiment of the invention, there is provided a
`keypad controller having a programmable temperature sensor for use in an alarm system. The keypad controller
`includes an input for allowing a user to interface with the keypad controller and an alarm system to which the keypad
`controller is connected, an output display for providing one or more of visual and auditory feedback to a user on the
`status of the system, an interface for communicating with an alarm control panel of an alarm system, a processor for
`processing inputs from the input or an alarm control panel and causing the appropriate information to be provided to the
`output display, and a programmable temperature sensor for monitoring the temperature in the space in which the keypad
`controller is to be located, the temperature sensor being provided with at least one alarm set point programmable as to
`level.
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`7 ) Suspended Code For Alarm System
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`Priority Date
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`US6078254A, CA2247600C, CA2247600A1
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`September 17, 1998
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` The system generates alarm suspension codes without direct interaction with the alarm panel. The alarm control
`panel generates its own suspension codes for checking for proper validation when a suspension code is entered. The
`alarm panel generates suspension codes sequentially and will recognize any of several suspension codes that are
`current. The entry of a later suspension code cancels all earlier suspension codes.
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`8) Biometric Input Device For Security System
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`Priority Date
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`CA2256809A1, CA2256809C, WO0038118A1, AU1764500A
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`December 21, 1998
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`The present invention provides for a biometric input device for a security system. The biometric input device
`includes a biometric sensor for sensing and input of biometric data, an image capture module for capturing and storage
`of the inputted biometric data from the biometric sensor, and an input/output module for passing the captured biometric
`data to a control panel and receiving data from the control panel. The invention also provides for a security system for
`controlling access to a premises. The security system includes a control panel for overall control of the security system,
`and one or more input devices for allowing users to interact with the security system., One or more of such input devices
`is a biometric input device capable of sensing biometric data from a user and capable of passing said sensed biometric
`data to the control panel for comparison against a database of biometric data of authorized users.
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` www.parsec.ca
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` Page 8
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`SecureNet Technologies, LLC Exhibit 1013 Page 8
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`

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`James Parker
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`9) Dual Mode Panel
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`Priority Date
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`January 5, 1999
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`US6380850B1, CA2258817A1, CA2258817C, WO0041152A1, AU1765100A, EP1149370B1,
`EP1149370A1
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`A dual mode alarm control panel includes a sensing arrangement for determining conditions of the environment
`in which the panel is installed. The results of the environmental assessment are used to determine an operating mode of
`the panel. In a first mode the panel is fully functional, and in a second mode the functions of the panel are restricted.
`This process assists in operating alarm control panels in an environment corresponding to the assumed design
`environment. In this way, non-compliance or operating alarm panels in unsuitable environments is reduced or avoided.
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`10) Alarm System Using Local Data Channel
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`Priority Date
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`February 2, 1999
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`US6252504B1, US6895082B2, US2002029147A1, CA2260680A1, CA2260680C
`
`An alarm system has an alarm unit in combination with a line seize module. The alarm unit includes a
`transmitter/receiver, a control panel function, a key pad, an input/output port connected to a telephone line and an auto
`dialer for normally communicating with a remote monitoring station over the public switched telephone network. The line
`seize module includes an input communication port connected to the telephone line, a signal transmitter and receiver for
`communication over telephone wiring with the alarm unit, control logic, a line seize arrangement and an automatic dialer.
`Control logic processing signals are received by the input port. The line seize module, upon receiving an alarm signal
`from the alarm unit, reports the signal to a remote monitoring station using the automatic dialer and the public switched
`telephone network.
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`11) Alarm System With Programmable Device Control
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`Priority Date
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`March 10, 2000
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`CA2300465A1
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`An alarm system providing programmable remote control of electrically controlled devices, such as lights, is
`provided. Geographic site and date information is provided to the alarm system. The parameters used to dictate the
`activation and deactivation of the controlled devices include the geographic site location and the sunrise and sunset
`times for the current date at that site. Accordingly, the activation and deactivation times of the controlled devices be
`programmed to automatically track the shifting sunset and sunrise times at the site.
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`12) Security Alarm Keypad With Message Alert
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`Priority Date
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`March 10, 2000
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`CA2300468C, CA2300468A1
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`A security alarm system is adapted to retrieve e- mail status information and provide an alert signal for the user
`of the system that e-mail has been received and is awaiting retrieval. Preferrably, the keypad of the security system
`includes a visual indicator which is activated when e-mail is received. The security alarm system uses the control panel
`and the auto dialer associated therewith, to contact the e-mail server and receive status information of one or more e-
`mail accounts. The control panel can contact the e-mail provider on a predetermined basis, or on a user scheduled
`basis. The accounting system's capability to initiate telephone communications and process signals from a remote
`computer is advantageously used for e-mail retrieval.
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`13) Remote Recovery Arrangement For Alarm System
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`Priority Date
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`March 10, 2000
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`CA2300648A1
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`A security alarm system cooperates with a remote monitoring station to improve the reliability of the alarm
`system. The alarm system includes a control panel which during communications with the remote monitoring station,
`receives information used for the operation of the system and preferrably provides information for storage by the remote
`monitoring station which information is recovered by the control panel if necessary.
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` www.parsec.ca
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` Page 9
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`SecureNet Technologies, LLC Exhibit 1013 Page 9
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`

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`James Parker
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`14) Security Alarm Keypad With Message Alert
`Priority Date
`US6362747B1
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`May 15, 2000
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`A security alarm system is adapted to retrieve e-mail status information and provide an alert signal for the user
`of the system that e-mail has been received and is awaiting retrieval. Preferably, the keypad of the security system
`includes a visual indicator which is activated when e-mail is received. The security alarm system uses the control panel
`and the auto dialer associated therewith, to contact the e-mail server and receive status information of one or more e-
`mail accounts The control panel can contact the e-mail provider on a predetermined basis, or on a user scheduled basis.
`The accounting system's capability to initiate telephone communications and process signals from a remote computer is
`advantageously used for e-mail retrieval.
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`15) Remote Recovery Arrangement For Alarm System
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`Priority Date
`
`May 15, 2000
`
`US6366211B1
`
`A security alarm system cooperates with a remote monitoring station to improve the reliability of the alarm
`system. The alarm system includes a control panel which during communications with the remote monitoring station,
`receives information used for the operation of the system and preferably provides information for storage by the remote
`monitoring station which information is recovered by the control panel if necessary.
`
`
`
`16) Alarm System With Programmable Device Control
`
`Priority Date
`
`May 26, 2000
`
`US6310547B1
`
`An alarm system providing programmable remote control of electrically controlled devices, such as lights, is
`provided. Geographic site and date information is provided to the alarm system. The parameters used to dictate the
`activation and deactivation of the controlled devices include the geographic site location and the sunrise and sunset
`times for the current date at that site. Accordingly, the activation and deactivation times of the controlled devices be
`programmed to automatically track the shifting sunset and sunrise times at the site.
`
`
`
`17) Integrated Lightning Detector
`
`Priority Date
`
`February 7, 2003
`
`US6960995B2, US2004257216A1, CA2418673C, CA2418673A1
`
`An alarm panel of a security system is additionally provided with an interference circuit for evaluating the
`possible presence of a large electromagnetic interference signal such as lightning. The earth ground connection of the
`alarm panel to a power source is used to provide an input to the interference circuit. The earth ground connection
`receives large transient signals caused by such naturally occurring events. The alarm panel uses this additional
`information to modify the reporting of alarm conditions. This has particular application for addressing problems
`associated with motion detectors falsely triggering when a large electromagnetic signal is received. The solution of the
`alarm panel sensing this condition in contrast to each detector sensing this condition is more reliable, allows combining
`of detector information and is more cost effective.
`
`
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` www.parsec.ca
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` Page 10
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`SecureNet Technologies, LLC Exhibit 1013 Page 10
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`

`
`James Parker
`
`18) False Alarm Reduction Method And System
`
`Priority Date
`
`US2006192666A1, US7323978B2
`
`February 16, 2005
`
`A digital verification control, which is incorporated with an alarm system, includes a first timer device for
`presetting a single zone verification time in the control panel and second timer device for presetting a multiple zone
`verification time in the control panel. The single zone verification time is a single detector time delay and arranged when
`one of the sensors detects at least two triggered signals in the respective detecting area within the single zone
`verification time, the local warning system is activated for producing a local warning signal., The multiple zone
`verification time, which is longer than the single zone verification time, is a multiple detector time delay and arranged
`when the two sensors detect two triggered signals in the detecting areas respectively within the multiple zone verification
`time, the local warning system is activated for producing the local warning signal.
`
`19) Security Device With Built-In Intercommunicated False Alarm Reduction Control
`
`Priority Date
`
`May 6, 2005
`
`US2006250231A1, US7248155B2
`
`A security device includes a plurality of security detectors intercommunicating with each other. Each of the
`security detectors includes a first device for verifying a single zone verification time of the respective security detector
`and a second device for verifying a multiple zone verification time with another security detector corresponding to a
`distance between two security detectors at two different detecting areas. When one of the security detectors detects at
`least two triggered signals in the respective detecting area within the single zone verification time, the respective security
`detector activates the local warning system to produce a local warning signal., When two security detectors are
`intercommunicated with each other to detect two triggered signals in the detecting areas respectively within the multiple
`zone verification time, at least one of the security detectors activates the local warning system to produce the local
`warning signal.
`
`20) Integrated Detecting Processor
`
`Priority Date
`
`US2007114413A1
`
`November 18, 2005
`
`An infrared sensor includes an infrared generator for generating infrared radiation within a detecting area, a
`pyroelectric sensor, a microprocessor, and an integrated detecting processor. The pyroelectric sensor is electrically
`communicated with the infrared generator, wherein the infrared radiation as an input signal is converted into a DC signal
`as an output signal having a real signal with low frequency and a noise signal mixed therewith. The microprocessor
`includes an A/D converter electrically connected with the pyroelectric sensor, wherein the microprocessor is arranged to
`receive the DC signal for data processing. The integrated detecting processor, which is electrically connected with the
`microprocessor, is adapted for stripping out the DC signal from the pyroelectric sensor to control a DC level of the DC
`signal, such that the real signal is allowed to be accurately processed in the microprocessor without data overflowing.
`
`21) Energy Signal Detection Device Containing Integrated Detecting Processor
`
`Priority Date
`
`US2007114414A1
`
`November 18, 2005
`
`An energy signal detection device includes a pyroelectric sensor sensing an infrared radiation within a detecting
`area, a microprocessor, and an integrated detecting processor. The infrared radiation as an input signal is converted into
`a DC signal as an output signal having a real signal with low frequency and a noise signal mixed therewith. The
`microprocessor includes an ADC converter electrically connected with the pyroelectric sensor, wherein the
`microprocessor is arranged to receive the DC signal for data processing. The integrated detecting processor is adapted
`for stripping out the DC signal from the pyroelectric