This document discusses elements of high-quality image production for television broadcasting such as spatial resolution, frame rate, dynamic range, color gamut, quantization, and total quality of experience. It outlines these elements and provides examples of their implementation in HD, UHD1, and UHD2 formats. Motivations for 8K and 4K broadcasting are discussed related to improved image quality, new applications, and bandwidth efficiency trends. Implementation examples of 4K and 8K broadcasting systems from Japan, Korea, Sweden, and the UK are also summarized.
HDR and WCG Video Broadcasting Considerations.pdfssuserc5a4dd
Elements of High-Quality Image Production–Color Gamut Conversion (Gamut Mapping and Inverse Gamut Mapping)–Gamma, OETF, EOTF, OOTF, PQ and HLG HDR–HDR & SDR Mastering, Mapping, Tone Mapping and Inverse Tone Mapping–Static and Dynamic Tone Mapping–Backwards Compatibility–HDR and WCG Production Equipment –DVB UHD Phases–HDR Metadata and HDR Standards –PQ10 and HLG10 Distrib
Presentation about Video Communications with focus on Video Coding - covers H.264/MPEG-AVC, Lagrangian Coder Control, H.265/MPEG-HEVC, Immersive Video Communication, Human Perception Measurement. Delivered at IMTC 20th Anniversary Forum
8K resolution, or 8K UHD, is the current highest ultra high definition television (UHDTV)
resolution in digital television, computer graphics and digital cinematography. 8K refers to the
horizontal resolution of 7,680 pixels, forming the total image dimensions of (7680×4320),
otherwise known as 4320p.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
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2. – Elements of High-Quality Image Production
– DVB UHD Phases
– 8K/UHD2 Motivations
– 8K/UHD2 satellite and DTT broadcasting
– 4K/UHD1 Motivations
– Carrying 4k/UHD1 to Home
– Bandwidth Efficiency Trend
– UHD Interfaces
– 4K/UHD1 satellite and DTT broadcasting
– Price Comparison between HD and UHD
– HD or 4K/UHD1
2
OUTLINE
3. Q1 Spatial resolution (HD, UHD)
Q2 Temporal resolution (Frame Rate) (HFR)
Q3 Dynamic Range (SDR, HDR)
Q4 Color Gamut (BT. 709, BT. 2020)
Q5 Component Coding (Quantization, Bit Depth)
Q6 Compression artifacts
.
.
.
Total Quality of Experience (QoE or QoX) = F(Q1, Q2, Q3, … Qn)
Not only more pixels, but better pixels
3
Elements of High-Quality Image Production
4. Spatial Resolution (Pixels)
HD, FHD, UHD1, UHD2
Temporal Resolution (Frame rate)
24fps, 30fps, 60fps, 120fps …
Dynamic Range (Contrast)
From 100 nits to HDR
Color Space (Gamut)
From BT 709 to Rec. 2020
Quantization (Bit Depth)
8 bits, 10 bits, 12 bits …
4
Five Major Elements of High-Quality Image Production
5. UHDTV 1
3840 x 2160
8.3 MPs
Digital Cinema 2K
2048 x 1080 2.21 MPs
4K
4096 x 2160 8.84 MPs
SD (PAL)
720 x 576
0.414MPs
HDTV 720P
1280 x 720
0.922 MPs
HDTV 1920 x 1080
2.027 MPs
UHDTV 2
7680 x 4320
33.18 MPs
8K
8192×4320
35.39 MPs
Wider viewing angle
More immersive
Q1:
Spatial Resolution
9. – Deeper Colors
– More realistic pictures
– More Colorful
– Rec. 2020 color space covers 75.8%, of CIE 1931 while Rec.
709 covers 35.9%.
Wide Color Space (ITU-R Rec. BT.2020)
Color Space (ITU-R Rec. BT.709)
Q3:
Wide Color Gamut
WCG
10. Images : Dolby Laboratories
Standard Dynamic Range
High Dynamic Range
(More Vivid, More Detail)
Q4:
High Dynamic Range
12. 12
Q3+Q4:
Wide Color Gamut + High Dynamic Range
SDR
SDR
HDR
HDR+WCG
More vivid, More details
More real, More colorful
13. 12 bits
4096 Levels
10 bits
1024 Levels
8 bits
256 Levels
13
– Wide Color Gamut Makes Deeper Colors Available
– With more colours to represent, higher bit sample
rates (10-bit) are critical
Q5:
Quantization (Bit Depth)
14. Next Gen Audio
WCG
HDR
New EOTF
HFR (> 50 fps)
Screen Size
4K Resolution
0 1 2 3 4 5 6 7 8 9 10
14
Added Value Score/ Importance
Source: Ericsson Co. 2015 and Ultra HD Froum
What’s Important in UHD
15. 4H UHDTV
High Frame Rate 120FPS
High Frame Rate 60FPS
HDR
Color Gamut
10-Bit Bit Depth
15
Percentage of bit rate incensement
(Reference Bit Rate: HD SDR BT.709 8-Bit,30FPS)
www.atsc.org
Relative Bandwidth Demands of 4K,HDR, WCG, HFR
20. 20
NAB 2015, Ikegami SHK-810: 8K Super Hi-Vision Camera System (Single 33 MP Super 35 CMOS sensor)
In Japan, 4K and 8K broadcasting is called “super high-vision”, or SHV.
8K/UHD2
Price: $300/000~$400/000
29. CAD/CAM (Computer-Aided Design/Computer-Aided Manufacturing)
– Design and digital visualization of 3D car models
– Tests of safety, aerodynamics and ergonomic solutions
– Architecture and urban planning design and visualization of buildings and engineering constructions models
– Tests of ergonomic and functionality as well as strength and safety of constructions
29
8K Motivation
30. – 2016 Rio Olympic Games (The world's first 8K live broadcast)
– 2020 Tokyo Olympics in 8K (NHK)
30
8K Motivation
31. Visualization of scientific processes
– Physics Visualization of research on elementary particles and quantum mechanics
– Biochemistry Particles and chemical reactions visualization, genetics structures visualization
– Meteorology Visualization of complex weather processes as well as disasters (e.g. tornados, earthquakes)
– Astronomy and radio astronomy Presentations of sky maps, stars and planets
31
8K Motivation
32. – The odd channel 17 is being used for the 4K/8K test broadcasting since 2016.
– Channel 7 and 17, will be used for 4K broadcasting by NHK and commercial satellite broadcasting stations in future.
– The even channels will also be used for 4K/8K broadcasting when full service broadcasting starts in 2018.
– Full operation of 8K broadcasting will start in 2018 using channel 14.
32
NHK UHD satellite broadcasting
33. – MMT (MPEG Media Transport) distribution technology is highly compatible with IP networks and currently employed in 8K test
satellite broadcasting.
– An MMT multi-viewing system which can send multiple images to tablets in synchrony with TV broadcasts is exhibited at the NAB
show.
– Augmented and virtual reality (AR/VR) applications are also anticipated.
33
Multi-view System with MMT Distribution Technology
34. – NHK is due to start regular satellite broadcasting service of 4K/8K Super Hi-Vision on December 1st, 2018.
– Transmission System of Mezzanine-compressed 8K over IP (a single 10Gb/s Ethernet cable)
34
The First 8K service by NHK in 2018
48Gb/s Quad-Link 12G-SDI 48Gb/s Quad-Link 12G-SDI
35. 35
– At IBC 2013, intoPIX launched TICO for utilization as a mezzanine compression format.
– Extremely tiny footprint in FPGA/ASIC fabric.
– Visually lossless using a 2:1 to 4:1 compression ratio, but keeps power and bandwidth at a reasonable budget.
– Bitrates capable for IP transport
– Low-delay suitable for switches, effects, etc. (Latency down to 1 pixel line ensures absolute real-time and instant operation).
TICO Low Light Visually Lossless Compression
Video Services Forum
Studio Video over IP
37. 37
Type Country Transmitter site Covering ERP
DTT
system
Channel
bandwidth
Transmission
mode
Multiplex
capacity
Signal
bit rate
Video encoding
standard
Picture
standard
Audio
Encoding
standard
Center
frequency
8K-UHD Japan
NHK Hitoyoshi
Station Hitoyoshi Area,
Kumamoto
Prefecture
140 W (H)
135 W (V)
ISDB-T
(Integrated
Services Digital
Broadcasting)
6 MHz
32kGI=1/32
4096QAM FEC 3/4
dual-polarized
MIMO
91.8 Mbit/s 91.0 Mbit/s
MPEG-
4AVC/H.264
7680 × 4320p
59.94 frame/s
8 bit/px
MPEG-4
AAC384 kbit/s
671 MHz
(Ch 46 in Japan)
NHK Mizukami
Station
25 W (H)
25 W (V)
671 MHz
(Ch 46 in Japan)
NHK STRL
Building
(NHK Science &
Technology
Research
Laboratories )
Tokyo
93 W (H)
93 W (V)
581 MHz
(Ch 31 in
Japan)
8K-UHD Korea
Technical
Research
Institute
Building
of Korean
Broadcasting
System (KBS)
Yeoeuido, Seoul
10 W (H)
10 W (V)
– 6 MHz
2kGI= 1/16 256QAM
FEC 3/4 dual-
polarized MIMO
50.475 Mbit/
s
(Single band)
50.0 Mbit/s HEVC – –
605 MHz &
623 MHz
(Ch 36 & Ch 39
in Korea)
DTT 8K/UHD2 System in the World
Wikipedia, ITU
39. – 35 mm Film Process:
– Expensive
– Slow
– Inflexible
– Manual process for assembling shows
– 4K emulates the resolution of 35mm Film
– The cost of film processing makes 4K attractive
– Film prints get scratched and dirty after only a few plays, 4K D Cinema keep a pristine image at all times.
– TV Broadcasting with Q1, Q2, Q3, Q4 and Q5
39
4K Motivation
45. MPEG-2 AVC HEVC
First Released 1994 2003 2013
SD 3 - 5 Mbps 1.8 - 3 Mbps 1 - 1.8 Mbps
HD 10 - 18 Mbps 5 - 9 Mbps 2.5 - 4.5 Mbps
4K UHDTV
(2160p50 10bit)
Not
Available
Not
Available
8 – 15 Mbps (Typ)
15 – 25 Mbps (Higher)
VVC
2020
0.6 - 1.1 Mbps
1.5 - 2.7 Mbps
5 – 9 Mbps (Typ)
9 – 15 Mbps (Higher)
Distribution For Similar Picture Quality
As with all bitrate projections, these ranges are subject to PQ expectations & content complexity
Ericsson 2015(Typ: For typical PQ comparisons, Higher: For higher PQ expectations)
46. MPEG-2
Video 4:2:2 8b
AVC
4:2:2 10b
HEVC
4:2:2 10b
First Released 1994 2003 2013
HD 35 - 60 Mbps 23 - 40 Mbps 17 - 30 Mbps
4K UHDTV
(2160p50 10bit) N/A
100 - 160 Mbps
(4 ×1080p60)
55 - 100 Mbps
Contribution For Similar Picture Quality
VVC
4:2:2 10b
2020
12 – 22 Mbps
30 - 70 Mbps
As with all bitrate projections, these ranges are subject to PQ expectations & content complexity
Ericsson 2015
47. 47
Interlace or Progressive (HD,UHD)?
– Based on video content, Interlaced can decrease or increase video bitrate
Bitrate-PSNR For Interlaced and Progressive video in HEVC
– Interlaced has better result in River and
Beauty video
– Progressive has better result in Sky,
Pedestrian, Old28, Old30
– Old 28 means: video Old with QP = 28
– And Old30 means: video Old with QP = 30
48. 48
UHD Interfaces
Single or Quad 12G-SDI (100m)
– SMPTE 2082 12Gb/s Serial Digital Interface - Electrical
– Baseband or Lightly Compressed UHD/4K
Optical 12G SFP
–ST 297 Optical Interface- Electrical
–SFP based
IP (10/40/100G)
– Compressed TS, Mezzanine and baseband UHD/4K
49. 49
UHD interfaces
(To Synchronize Video Equipment over an IP Network)
(Seamless Protection Switching of SMPTE ST 2022 IP Datagram)
(Transport of High Bit Rate Media Signals over IP Networks (HBRTM))
Single or Quad 12G-SDI
Baseband or Lightly
Compressed UHD/4K
IP (10/40/100G)
Compressed TS, Mezzanine
and baseband UHD/4K
50. – SDI challenges will emerge from 40Gb/s and 100Gb/s Ethernet variants with the capacity to handle baseband production signals.
– Broadcasting no longer an independent silo
–Take advantage of evolution speed of Internet
– Broadcast & Broadband as peer delivery mechanisms
–Enables new types of hybrid services
–Ability to seamlessly incorporate niche content
– Enable new business models
–Localized Insertion
– Ads or other content
– Allows revenue model for broadcasters that has been available to cable or IPTV operators
50www.atsc.org
Benefits of IP transport
The mild compression schemes for editing and long GOP compression may breath life into SDI, especially in12-G variants.
51. 51
Type Country
Transmitte
r site
Covering ERP
DTT
system
Channel
bandwidth
Transmission mode
Multiplex
capacity
Signal bit rate
Video
encoding
standard
Picture standard
Audio encoding
standard
Center frequency
4K-UHD Sweden
Stockholm
Nacka
City of
Stockholm
35 kW DVB-T2 8 MHz
32k, extended
mode, GI = 19/256,
256QAM, FEC3/5,
PP4
31.7 Mbit/s 24 Mbit/s HEVC
3840 ×
2160p29.97 frame/s,
8 bit/px
618 MHz (Ch 39 in
Region 1)
4K-UHD
United
Kingdom
Crystal
Palace
Greater
London
(serving over
4.5 million
households)
39.8 kW DVB-T2
8 MHz
32k, extended
mode, GI = 1/128,
256QAM, FEC 2/3,
PP7
40.2 Mbit/s
Variable
(some trials at
35 Mbit/s)
HEVC
Mixture of 3840 ×
2160p, 50 frame/s and
3840 × 2160p,
59.94 frame/s; most of
the trial at 8 bit/px,
some at 10 bit/px
586 MHz (Ch 35 in
Region 1)
4K-UHD Winter Hill
North-west
England,
including
Manchester
and Liverpool
(serving 2.7
million
households)
22.5 kW DVB-T2
602 MHz (Ch 37 in
Region 1)
4K-UHD Black Hill
Central
Scotland,
including
Glasgow and
Edinburgh
(serving 1
million
households)
39 kW DVB-T2
586 MHz (Ch 35 in
Region 1)
4K-UHD
Czech
Republic
Žižkov
Television
Tower
Prague – DVB-T2 8 MHz – – – HEVC 3840 × 2160p –
706 MHz (Ch50 in
Region 1)
4K-UHD Slovakia Kamzík Bratislava 5 kW DVB-T2
32k, 256QAM, FEC
3/4
36 Mbit/s HEVC 3840 × 2160p 184.5 MHz(ch 6)
Wikipedia, ITU
DTT 4K/UHD1 System in the World
52. 52
Type Country
Transmitter
site
Covering ERP DTT system
Channel
bandwidth
Transmission
mode
Multiplex
capacity
Signal bit rate
Video
encoding
standard
Picture
standard
Audio
encoding
standard
Center
frequency
4K-UHD Brazil Mt. Sumaré
Parts of Rio de
Janeiro
metropolitan
area
660 W (H)660
W (V)
ISDB-T 8 MHz
32k, extended
mode,GI =
1/128, 64QAM,
FEC5/6, PP7
36.72 Mbit/s 35.0 Mbit/s HEVC
3840 ×
2160p50 frame
/s, 8 bit/px
E-AC-3 5.1
754 MHz(Ch5
6 in Region 1)
4K-UHD
Korea
(Republic of)
Gwanaksan
South
Metropolitan
area,of Seoul
36.7 kW
DVB-T2 6 MHz
32k extended
modeGI = 1/16
PP4 256 QAM
FEC 3/4, 4/5,
5/6
< 35.0 Mbit/s
Variable(some
trials at
25~34 Mbit/s)
HEVC
Main10Level
5.1 Max
28 Mbit/s
3840 ×
2160p60 frame
/s, 8 or
10 bit/px
MPEG-4 AAC-
LCor Dolby
AC-3
Max 5.1Ch
Max 600 kbit/s
or
MPEG-H 3D
Audio[204]
761 MHz (Ch
62 in Korea)
12.9 kW
701 MHz(Ch
52 in Korea)
40.0 kW
707 MHz(Ch
53 in Korea)
Namsan
Central area of
Seoul
2.2 kW
761 MHz (Ch
62 in Korea)
Yongmunsan
West
Metropolitan
area of,Seoul
8.3 kW
707 MHz(Ch
53 in Korea)
4K-UHD France Eiffel Tower City of Paris 1 kW DVB-T2 8 MHz
32k extended
mode, GI =
1/128,
256QAM,FEC2
/3, PP7
40.2 Mbit/s
Two
programmes
carried:one at
22.5 Mbit/s,
one at
17.5 Mbit/s
HEVC
3840 ×
2160p,50 fram
e/s, 8 bit/px
HE-AAC 192
kbit/s
514 MHz(Ch26
in Region 1)
4K-UHD Spain
ETSI Tele-
comunicación
Ciudad
Universitaria
Madrid
125 W DVB-T2 8 MHz
32k, extended
mode, GI =
1/128, 64QAM,
FEC5/6, PP7
36.72 Mbit/s
35 Mbit/s
(other bit rates
also tested)
HEVC
3840 ×
2160p,50 fram
e/s, 8 bit/px
E-AC-3 5.1
754 MHz
(Ch56 in
Region 1)
Wikipedia, ITU
DTT 4K/UHD1 System in the World
53. 53
Quantity of
4k/UHD1 Services
DVB-S2, HEVC
17-30 Mb/s)
5 Hispasat
3 Atlantic Bird
25 Eutelsat
19 Hotbird
17 Astra 19°
2 Astra 23°
9 Astra 29°
Quantity of
4k/UHD1 Services
IPTV, HEVC, 24 Mb/s
3 France
Quantity of
4k/UHD1 Services
DVB-C, HEVC,
18-35 Mb/s
1 Belgium
2 Germany
3 United Kingdom
3 France
Quantity of
4k/UHD1 Services
DVB-T2, HEVC,
16-25 Mb/s
1 Spain
2 France
http://digitalbitrate.com/
54. Delivered
via
Transfer
Function
Frame
Rate
Bit Depth
(bit)
Color Space Audio Codec(s)
Bit rate
(Mbps)
Note
Satellite SDR 30 27
Satellite
HLG or SDR 59.94 10 BT.2020 Audio adds 5Mbps 35
Bitrate works for
sports and HDR
content
Satellite or
IPTV
SDR 50 8 or 10 AC-3 24-30
Satellite or
IPTV
PQ 59.94 10 AC-3, AAC 32
IPTV PQ 50 10 BT.2020 MPEG2, AC-3, DD 25 Sport
Satellite SDR 50 10 BT.709 30-38 Drama, Movie
All the examples in Table are 2160p spatial resolution and use HEVC encoding with 4:2:0 color subsampling.
Resolution Frame Rate Approximately Bit Rate
3840×2160 P60/50 15-20 Mbps
1920×1080 P60/50 5-10 Mbps
720×404 P30/25 < 1 Mbps
Example bitrates that could be used for OTT services
54
Example “real world” Bitrates in 2016/2017 for 4K Services
56. 56
Price Comparison for Video Equipment of one Studio
$510,000 $538,000 $553,000
$730,000
$2,920,000
$0
$500,000
$1,000,000
$1,500,000
$2,000,000
$2,500,000
$3,000,000
$3,500,000
FULL HD
1920× 1080, 50i
FULL HD
1920×1080, 50p
FULL HD
1920×1080, 50p
(HDR+WCG)
4K/UHD1
(HDR+WCG)
8K/UHD2
(HDR+WCG)
• 4 Studio Cameras
• Lenses
• Pedestals
• Video Mixer
• Router
• MVs
• Recorders/Players
• Digital Glues
• …
62. 62
≈0%
Price Comparison for Portable Video Equipment
Sony PXW-Z450 4 3-CMOS
2/3" Sensor XDCAM
Camcorder $25/000
Sony PXW-Z280 3-CMOS
1/2" Sensor XDCAM
Camcorder $7/000
Sony PDW-850 XDCAM HD422
2/3" 3CCD Camcorder 23/000
Sony PMW-300K1 XDCAM HD
Camcorder $7/700
63. 63
Price Comparison for Video Equipment
Approximately
400%
Quad 12G-SDI
UHD1+HDR+WCG
3840×2160, 50p
UHD2+HDR+WCG
7680×4320, 50p
Approximately
250%~350%
IP and TICO
UHD1+HDR+WCG
3840×2160, 50p
UHD2+HDR+WCG
7680×4320, 50p
64. Source Destination Added Value
SD HD Medium
HD UHD Medium
HD UHD+HDR+WCG High
HD HD+HDR+WCG High
HD+HDR+WCG UHD+HDR+WCG
Medium or High (Frequently High)
(According to Program and Display is
variable, QD Display)
SFR HFR
Medium or High
(According to Program is variable)
64
Added Value for 4K/UHD, HDR, WCG, HFR
65. 4K/UHD1 Disadvantages
– Less or no advantage in small contribution studios
– Distribution Limitations (at leads 5 years, FVC will help in 2020)
– Extra cost for customers (It can be managed by reducing UHD TV price)
– Extra budget for new studios (Approximately between %13 to %32 according to design)
– Changing traditional trends and upgrading staffs knowledge
– Cultural issues
4K/UHD1 Advantages
– Archiving in 4K
– Considerable advantage in production studios and OBVANs.
– Compatibility with new broadband demands and new displays (QD)
– Avoiding format exchange in new future (At least 15 years)
– Higher picture quality using 4K equipment in HD format
– Better image and video processing using extra resolution
– More contribution in sport events
65
HD (1920×1080,50p) or 4K/UHD1 (3840×2160,50p)?
Draw a line up from your screen size and across from the viewing distance. The intersection
point will indicate how much resolution you will be able to perceive from that viewing
distance. For example, a 42” screen at 10’ (approximately 3× screen height), the typical
viewing distance for HD, you would get some benefit from 720P but would not be able to see
the full quality of 720P. To get the full benefit of 720P you’d have to move the seat closer, to
about 8’ from the screen. For the full benefit of 1080P, you’d need to be an uncomfortably
close 5’ from the screen.
As mentioned here, 8K-UHD-2 has many distinct characteristics not
available in traditional 2K broadcasting, including 4K and 8K resolution, a
wide color gamut, high dynamic range, 10- and 12- bit-depth, high frame
frequency, and 22.2 multichannel sounds. Therefore, the viewer may feel
a highly realistic sensation, as if he or she was on the spot, or as if the
object on screen was really there.
Telemedicine (Educational purposes , Transmissions during symposiums and conferences)
Security and monitoring (Face recognition at airports, train stations and stadiums
Many details on single 8K frame (Useful for and others security units)
BSAT-4a
A transponder for even channels with left handed circularly polarized waves
A transponder for conventional odd channels with right-handed circularly polarized waves.
These are the channels assigned for satellite broadcasting.
Currently, odd channels with right-handed circularly polarized waves are
used for satellite broadcasting in Japan, and channel 17 is being used for
the 8K test broadcasting since 2016.
In preparation for the full service 4K8K broadcasting scheduled to start
in Dec. 2018, existing channels using right-handed circularly polarized
waves will be reallocated and bandwidth for 2K broadcasting will be
compressed to free channel 7. Channel 7, together with channel 17, will
be used for 4K broadcasting by NHK and commercial satellite
broadcasting stations.
At the last Octobre, Broadcasting Satellite System Corporation (B-SAT) ,
a Japanese broadcast satellite operator, successfully launched a new
broadcasting satellite called BSAT-4a.
BSAT-4a is equipped with a transponder for even channels with lefthanded
circularly polarized waves, in addition to a transponder for
conventional odd channels with right-handed circularly polarized waves,
These even channels will also be used for 4Kand 8K broadcasting when
full service broadcasting starts in 2018.
For 8K broadcasting, channel 14 will be used.
The New Transmission System of Mezzanine-compressed 8K over IP
NHK has developed a system for sending 8K video, audio and other program materials by a single Ethernet cable using IP signals. This transmission can be used for 8K program production by connecting the venue and broadcast stations by IP network.
To transmit 8K program materials over long distances, such as between Tokyo and Osaka, it has been necessary for 8K signals to compress from the 40 gigabits per second to several hundred megabits per second. The high compression rate causes deterioration to the image quality during program production and the compression and decryption processes also take several seconds, making the system unsuitable for live broadcasting.
The newly developed system has been designed for use on commercially available and diffused IP networks of 10 gigabits per second. The 8K video signals are transmitted after they are compressed to about 8 gigabits per second and packetized for IP. The processing times for compression and decryption are also extremely short at only several tens of microsecond. The relayed images retain their ultrahigh resolution and can be transmitted with low delay.
Converting the transmission into IP signals also makes it possible to send different types of signal, including internal communication signals as well as 8K video and audio, over the single IP circuit. Further, these signals can be sent in both directions between the broadcast station and venue for flexible 8K program production.
This group (SVIP = Define and research requirements for Studio Video over IP without SDI encapsulation) was formed on April 17, 2014. This activity group issued a Technical Recommendation (TR-03) on October 19, 2015 entitled "Transport of Uncompressed Elementary Stream Media over IP". This Technical Recommendation differs from current practices that bind video, audio, and ancillary data into the Serial Digital Interface (SDI) multiplex before encapsulation in IP, and instead provides for the carriage of video, audio, and ancillary data as separate elementary streams that can be individually forwarded through a network.
اشتهای امريکاييها به داشتن تلويزوين صفحه بزرگ دليل رشد تلويزيون UHD در اين کشور است. بيش ار ۸۰ در صد
تلويزيون های فروخته شده در امريکا در سال ۲۰۱۵ دارای صفحه بزرگتر از ۵۰ اينچ بوده اند. گرچه بنظر ميرسد
فروش رو بافول باشد، با اين حال پيش بينی ميشود تا سال ۲۰۲۰ بيش از ۵۰ در صد فروش گيرنده ها از نوع UHD
باشد.
گرچه تعداد صاحبان تلويزيون های UHD در امريکا بيش از همه جای دنيا است، ولی جديدا چين با واردات ۲۵
درصدی اين نوع تلويزيون از شرکت های TCL و Skyworth بالاترين گيرنده ها خواهد داشت. در اروپای غربی تعداد
اين نوع گيرنده در سال ۲۰۱۵ رشد زيادی داشته و ببالای ۵ ميليون در اين سال رسيد. کشور های انگليس و آلمان
هر يک ۱ ميليون گيرنده داشته اند، که بعد از امريکا و چين در جايگاه سوم و چهارم قرار دارند.
Mezzanine Compression
Applying modest levels of compression in the range 2:1 to 20:1 (depending on image format
and interface bandwidth requirements), would provide sufficient bandwidth reduction to
accommodate the transport of high bandwidth production image formats over the existing 3GSDI
infrastructure.
The concept of employing mezzanine compression to achieve real time streaming media
bandwidth reduction is not new. SMPTE RP 2047-1 VC-2 Mezzanine Level Compression of
1080P High Definition Video Sources was specifically designed to allow the transport of
1080p50/60 image formats with a nominal payload of 3Gbit/Sec over a SMPTE ST 292-1
1.5Gbit/Sec SDI interface for example.
In 2009, the Fraunhofer Institute and Gennum corporation presented a paper; “JPEG 2000
Mezzanine Compression for Real Time Digital Cinema”, at IBC. This paper proposed the
use of JPEG 2000 to facilitate the transport of 2K and 4K D-Cinema and 4K and 8K UHDTV
over the existing 3G-SDI infrastructures. This paper describes a complete system from DCinema/
UHDTV source to 3G-SDI including the details of transporting the JPEG 2000
compressed byte stream within 3G-SDI, using a novel and efficient packing and encapsulation
method that consumes only a fraction of the overhead used by current schemes.
Many other codec’s could also be applicable to this application such as J2K, .H.264, HEVC AVC
Ultra etc.
Two compression codec’s currently in revision or in development in the TC10E Essence
Committee of SMPTE could be considered as suitable candidates for such a mezzanine
compression application.
• ST 2042-1:2012 VC-2 Video Compression has recently been revised to add support for
4:4:4 processing and higher bit depth images. This standard already supports 2K, 4K
and 8K image format resolution at frame rates up to and including p50/60.
• Proposed ST 2073-1 VC-5 (CineForm codec) is currently under development. This
codec is unrestricted in terms of bit depth, sampling, frame rate and image format and so
could also be considered as an applicable candidate.
Additional standardization work to define a specific profile and bit stream that can be mapped to
the SDI interface would be required to ensure interoperability.
To ensure general acceptance within the industry, any such mezzanine compression scheme
would need to provide a low-latency low-loss profile and demonstrate excellent multi-pass
performance. At time of writing, no specific proposals have been made to standardize a
mezzanine compression system for this particular application