User Manual
Table Of Contents
- Initiatives on the Use of Video Products
- Legal Information
- Chapter 1 Device Activation and Accessing
- Chapter 2 Network Camera Configuration
- 2.1 Update Firmware
- 2.2 Symbol Conventions
- 2.3 Safety Instruction
- 2.4 System Requirement
- 2.5 Live View
- 2.6 Video and Audio
- 2.7 Video Recording and Picture Capture
- 2.8 Event and Alarm
- 2.9 Network Settings
- 2.10 Arming Schedule and Alarm Linkage
- 2.11 System and Security
- 2.11.1 View Device Information
- 2.11.2 Search and Manage Log
- 2.11.3 Simultaneous Login
- 2.11.4 Import and Export Configuration File
- 2.11.5 Export Diagnose Information
- 2.11.6 Reboot
- 2.11.7 Restore and Default
- 2.11.8 Upgrade
- 2.11.9 Device Auto Maintenance
- 2.11.10 View Open Source Software License
- 2.11.11 Wiegand
- 2.11.12 Metadata
- 2.11.13 Time and Date
- 2.11.14 Set RS-485
- 2.11.15 Set RS-232
- 2.11.16 Power Consumption Mode
- 2.11.17 External Device
- 2.11.18 Security
- 2.11.19 Certificate Management
- 2.11.20 User and Account
- 2.12 VCA Resource
- 2.13 Smart Display
- 2.14 EPTZ
- 2.15 Image Stitching
- Appendix A. FAQ
- Appendix B. Device Command
- Appendix C. Device Communication Matrix
H.265+
H.265+ is an improved compression coding technology based on H.265. By enabling H.265+, you
can
esmate the HDD consumpon by its maximum average bitrate. Compared to H.265, H.265+
reduces storage by up to 50% with the same maximum bitrate in most scenes.
When H.265+ is enabled, Max. Average Bitrate is congurable. The device gives a recommended
max. average bitrate by default. You can adjust the parameter to a higher value if the video quality
is less
sasfactory. Max. average bitrate should not be higher than max. bitrate.
Note
When H.265+ is enabled, Video Quality, I Frame Interval, Prole and SVC are not congurable.
I-Frame Interval
I-frame interval denes the number of frames between 2 I-frames.
In H.264 and H.265, an I-frame, or intra frame, is a self-contained frame that can be independently
decoded without any reference to other images. An I-frame consumes more bits than other
frames. Thus, video with more I-frames, in other words, smaller I-frame interval, generates more
steady and reliable data bits while requiring more storage space.
SVC
Scalable Video Coding (SVC) is the name for the Annex G extension of the H.264 or H.265 video
compression standard.
The
objecve of the SVC standardizaon has been to enable the encoding of a high-quality video
bitstream that contains one or more subset bitstreams that can themselves be decoded with a
complexity and
reconstrucon quality similar to that achieved using the exisng H.264 or H.265
design with the same quanty of data as in the subset bitstream. The subset bitstream is derived
by dropping packets from the larger bitstream.
SVC enables forward
compability for older hardware: the same bitstream can be consumed by
basic hardware which can only decode a low-resoluon subset, while more advanced hardware
will be able decode high quality video stream.
MPEG4
MPEG4, referring to MPEG-4 Part 2, is a video compression format developed by Moving Picture
Experts Group (MPEG).
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