vehicle identification study ingress/egress to a parking area for private audience and use only...
TRANSCRIPT
Vehicle Identification StudyIngress/egress to a parking area
For private audience and use only
October 2015
SummaryAn organization is looking to add video surveillance in order to capture license plates and vehicle descriptions at the
ingress/egress points to their parking lot. This organization will use two SOLVEIL cameras with solar power and wireless
transmission sending video to one HUB located in a nearby building, where power is available. One camera will monitor an
entrance lane and the other will monitor an exit lane. IR illumination will be added to both cameras as sufficient lightning
is not available during night time hours. This is also part of a contingency plan, in case power is cut to the existing light
poles. Distance to target for camera 1 is roughly 50ft. (15.24 meters) Distance to target for camera 2 is roughly 120ft.
(36.6 meters). The width of the field of view for both cameras is roughly 16ft. (4.9 meters) Camera 1 is mounted 21.5ft
(6.6 meters) from the ground and camera 2 is mounted 20ft (6.0 meters) from the ground. The MicroPower certified
systems integrator will supply all necessary installation labor to attach the solar panel, antenna and camera to existing
light poles, and install the hub antenna and hub (POE+), which will be connected to the existing network, and VMS.
The SOLVEIL system has HD video quality and sends video wirelessly on a proprietary 2.4GHZ format. The receiver HUB
will need be located in a security and environmentally friendly location. Standard video utilizing H.264 would be sent from
the SOLVEIL receiving HUB to the Video Management System via a local network connection.
Having the ability to be located without the need of power or network conductivity, the SOLVEIL cameras can be located at
convenient and optimum locations for the desired video coverage. This advantage is key in designing an accurate security
surveillance system.
Site Information: SOLVEIL 2 Camera System
Locations of 2 SOLVEIL cameras and 1 Hub
Hub
Camera 1
Camera 2
Site Information: Camera ConfigurationCamera 1 (click for results)
Lens: 10~40mm set at approximately 15mm
Iris: 75-80% closed
Distance to target: 50 ft
Camera height: 21.5 ft
Field of view width: 16ft
Pixels per foot: 79.5
Camera 2 (click for results)
Lens: 10~40mm set at approximately 38mm
Iris: 75-80% closed
Distance to target: 120 ft
Camera height: 20 ft
Field of view width: 16 ft
Pixels per foot: 81.7
Site Information: SOLVEIL Panels, Antenna, CamerasFresnel/RF Line of Sight
The below represents the recommended clearance required in the direct path between the camera and hub antennas for this site:
• Camera 1 (368 ft./112m) : 4.75 ft./1.5m radius
• Camera 2 (393 ft./119.7m) : 4.90 ft./1.5m radius
Site Information: SOLVEIL Panels, Antenna, Cameras
Solar Panels
• Panels must face toward the equator (South in Northern Hemisphere)
• Panel angle set to 46˚
Solar Panel Size Calculation
Based on the RF scans from the HUB location and the two camera locations, it is recommended thatchannel 6 be used for video transmission. The HUB location shows noise present on channels 1 and 11.
Site Information: RF Scan from Hub location
Site Information: RF Scan from Camera 1 location
Camera 1 location shows that significant noise is present on channel 11.
Site Information: RF Scan from Camera 2 location
The RF Scan from Camera 2 location shows minimal noise on channels 1, 6, and 11.
Bill of Materials Parts Quantity Part Number Description Notes
SOLVEILCamera-IR
2 SLV-C30S-1040-20-IR Solveil Solar Wireless Outdoor IP Camera, Standard with Shade and Directional Antenna, Varifocal 10 - 40 mm Lens, 20W Auxiliary Solar Panel with Bracket and Connector Cable, 15 Degree IR. 720p 15fps.
SOLVEIL Receiver (HUB)
1 SLV-H20HA SOLVEIL Hub with Directional Antenna and (1) 15ft RF Low Loss Cable
SOLVEIL Pole Mount HW
2 SLV-APMAC Pole mount adapter for mounting camera arm to light-pole (banding not included)
Site Information Checklist Site checklist
Location of Camera √
Location of receiver hub √Location of hub antenna √Camera field of view distance to target and width √Lighting, is IR camera required IR requiredType of VMS ( brand and version) Milestone being used during
test period
Local power for hub (110Vac) √Availability and location of security IP network connectivity √Clear LOS between hub antenna and camera antenna within 70 degrees √RF analysis scan at camera and hub antenna locations √Mounting requirements at each Location Pole mountGoogle Earth plans with accurate location markings – Verify √
SOLVEIL System
An integrated solar-powered, wireless surveillance solution delivering secure video from perimeters, remote, and difficult to reach locations.
Contact Info
Mike CuevasSales Engineering ManagerOffice (858) [email protected]
Industry Recognition
Award-Winning Technology
A integrated solar-powered, wireless surveillance solution delivering secure video
from perimeters, remote, and difficult to reach locations.
For more information, visit us online:
WWW.MICROPOWER.COM