1. An integrated solar-powered, wireless surveillance solution delivering secure video from perimeters, remote and difficult to reach locations. An introduction to the platform

2. Solar | Wireless | Energy Management Who We Are Delivering cost-effective surveillance; with respect given to sustainability. Founded in 2008, drawing from robust and proven technologies. Funded and backed by Motorola Solutions, Inc. and a consortium of private equity investors.

3. 3  Time, distance, existing facilities  Hard-surface, legacy sites  Downtime and jurisdiction questions Placement Dependencies  Operational as well as security risks  Difficult business case to justify  Need to monitor, protect, and assess risks Remote Assets  Cannot justify any or adequate onsite human guards  No power or inconsistent power, no network  Temporary or sudden events create acute risks Outdoor Risks Surveillance Trends and Needs

4. 4 Business Challenges and Pain Points  Trenching costs prohibitive  Business/traffic disruption can be significant  Time to deploy can be lengthy  Unforeseen issues may be common

5. 5 Understanding the Problem Cost per remote camera placement cannot presently be justified Current thinking suggests these areas of risk are unreasonable to resolve Viewing risk “hot spots” from a distance may not provide the right perspective or have adequate lighting Proposals result in project over budget, delayed and/or abandoned.

6. Alternatives Have Limitations  Developed for specific site need  Camera typically 25+ Watts  Very large, heavy battery packs and solar panels  Permits required for pole  Wind load issues due to panel size Custom and COTS Solar KitsCameras on Light Poles  Camera locations restricted to light poles  Switched power/use of step down transformers  Network?  Cost per camera = $4-6K USD  Grid dependent

7. 7 Evolving the MicroPower Solution Reduce the camera draw on power  Remove the power hungry components from camera, resulting in significantly less power consumption than a typical surveillance camera (nominal ¾ Watt vs. 25 Watts)  Add a lithium-ion battery to camera enclosure  Batteries charged via solar panel, optimized using 22+ year history NASA global weather database  Fully charged battery yields 5 days of full streaming video operation with continuous recharging, self-sustaining, renewable energy Communicate video in secure manner, line of sight  Antenna provides TrustLinx™ unique wireless protocol  Up to distance of ½ mile (.8 km)  Designed for high-availability operation, “test and heal” technology Pool cameras  MicroPower hub manages up to 4+ cameras; maximum 30fps per hub From hub, connectivity to the network Communicate to hybrid and existing systems  Benefit of no additional investigator training  Benefit of existing VMS features  Benefit of legacy systems interoperability Installs quickly and effectively — 3-year warranty on all components

8. 8 No Power, No Network, No Problem  Camera and transmitter designed for low power operation  Enterprise-class line of sight and a 2.4 GHz wireless connection  Indoor hub manages 4+ cameras and integrates with leading video management software applications Extends the use of video surveillance to sites that were previously unreachable by traditional surveillance systems.

9. 9 Remote Video Monitoring Applications Tap into increased situational awareness by monitoring operations and security at remote sites from a central location where streaming video is required.  6 rapidly deployed, integrated solar-powered wireless IR cameras with an antenna  2 hubs powered locally within an environmentally controlled building Integrated backhaul line of sight video streaming up to 10+ miles  Video management software driven features and functionality at central monitoring station

10. Power-Efficient Platform  720p HD camera, configurable 1-15 fps  Nominal 0.75 Watts power requirement  Internal 5 day back up battery  Operational from 122°F (50°C) to -40°F (-40°C)  Lens options: varifocal 2.8-11 mm or 10-40 mm  Lithium-ion batteries included SOLVEIL HD  720p HD camera, configurable 1-15 fps  Nominal 0.85 Watts power requirement  Internal 5 day back up battery  Operational from 122°F (50°C) to -40°F (-40°)  Lens options: varifocal 2.8-11 mm or 10-40 mm  Lithium-ion batteries included  Synchronized IR illumination  IR illumination up to 150 ft. (45.72 m) COMPONENTSSOLVEIL HD IR

11. 11 Key Capabilities and Business Value  New perspective on evidence gathering  Time and money vs. trenching, cabling and conduit  Eliminates power requirements at “hot spot”  Reduces both capital investment and long-term operational expense (sustainable renewable energy)  Complete interoperability  Does not conflict with Wi-Fi installed (temporary or permanent)  Provides pixel per foot at “hot spot” An extension of any open systems surveillance system.

12. 12 Changing Your Perspective Placing Cameras the “Hot Spots” of Risk

13. 13 Delivering Return On Investment (ROI)

14. 14 Delivering ROI Global Express Package Service: Logistics Center Case Study

15. 15  Oil and gas  Chemical/petrochemical  Utilities/Power Energy Grid  Arenas/stadiums/event management  Higher education  Freight & logistics Commercial  Dams, water reservoirs, water treatment  Rail, mass transit  Military support and operations Infrastructure MicroPower solutions are easy to deploy and used across multiple markets Typical Deployments and Use Cases

16. 16 Design and Installation Process Steps

17. Award-Winning Technology Industry Recognition

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19. 19 University of Southern Mississippi Site Plan

20. 20 Setting the Camera Location Standard Tools for Easy Installation Typical Antenna Size Next to Ladder Pipe Clamps Attached Antenna Attachment Initial Steps to Install the System

21. 21 Optimizing the Solar Panel Identifying the Angle of the Panel Attaching the Solar Panel Installed Panel, Antenna & Camera Leveraging Current Infrastructure Adding the Solar Panel to Cameras

22. 22 Location of the Hub on Campus Coax from Antenna to Hub View from Top of Building Antenna Assembly on PipeU-Bolt Attachment Adding the Hub

23. 23 Configuring the Camera Camera Location on a Tree System Ready for Tailgating Monitoring Leveraging Current Infrastructure Quick Configuration and Rapid Install

24. 24 Reference and Resource  Per the NCS4 Lab report, “the entire system was set up in less than two hours”.  Comment from the Lab Proctor, “MicroPower scored the highest of any technology solution tested to date”.  Report can be accessed on the NCS4 website:  https://www.ncs4.com/sites/default/files/attachments/micropow er_final_lab_report_0.pdf

25. 25 Mutual Opportunity Pursuit with MicroPower  Go To Market transaction with signed systems integrators  Budget round with RSM w/Google Earth w/in 30 minutes for BOM, for basic systems  Online certification coming target June 1  Partner site resources available now  RF scan/certification a contingency of order entry  Partner site resources available now

26. An integrated solar-powered, wireless surveillance solution delivering secure video from perimeters, remote and difficult to reach locations. For more information, contact your Regional Sales Manager or visit us online: WWW.MICROPOWER.COM