Specifications

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When implementing 10 or more cameras, the network load can be estimated using a few rules

of thumb:

> A camera that is congured to deliver high-quality images at high frame rates will use

approx. 2 to 3 Mbit/s of the available network bandwidth.

> With more than 12 to 15 cameras, consider using a switch with a gigabit backbone. If a

gigabit-supporting switch is used, the server that runs the video management software

should have a gigabit network adapter installed.

Technologies that enable the management of bandwidth consumption include the use of VLANs

on a switched network, Quality of Service and event-based recordings. For more on these topics,

see chapters 9 and 11.

12.1.2 Calculating storage needs

As mentioned earlier, the type of video compression used is one of the factors aecting storage

requirements. The H.264 compression format is by far the most ecient video compression

technique available today. Without compromising image quality, an H.264 encoder can reduce

the size of a digital video le by more than 80% compared with the Motion JPEG format and as

much as 50% more than with the MPEG-4 (Part 2) standard. This means much less network

bandwidth and storage space are required for an H.264 video le.

Sample storage calculations for all three compression formats are provided in the tables below.

Because of a number of variables that aect average bit rate levels, calculations are not so clear-

cut for H.264 and MPEG-4. With Motion JPEG, there is a clear formula because Motion JPEG

consists of one individual le for each image. Storage requirements for Motion JPEG recordings

vary depending on the frame rate, resolution and level of compression.

H.264 calculation:

Approx. bit rate / 8(bits in a byte) x 3600s = KB per hour / 1000 = MB per hour

MB per hour x hours of operation per day / 1000 = GB per day

GB per day x requested period of storage = Storage need

Table 12.1a The gures above are based on lots of motion in a scene. With fewer changes in a scene, the gures can

be 20% lower. The amount of motion in a scene can have a big impact on the amount of storage required.

Camera Resolution

Approx. bit rate

(Kbit/s)

Frames per

second

MB/

hour

Hours of

operation GB/day

No. 1 CIF 110 5 49.5 8 0.4

No. 2 CIF 250 15 112.5 8 0.9

No. 3 4CIF 600 15 270 12 3.2

Total for the 3 cameras and 30 days of storage = 135 GB

CHAPTER 12 - BANDWIDTH AND STORAGE CONSIDERATIONS