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CIFF TECHNOLOGY CORPORATION

CIFF CODEC FOR THE IMPROVED BATTLESPACE INFORMATION DISSEMINATION USING ALREADY DEPLOYED ASSETS ENABLING TECHNOLOGY FOR NETWORK CENTRIC WARFARE. CIFF TECHNOLOGY CORPORATION. 3. CIFF CODEC MAJOR FEATURES. Unified Lossy and Lossless Still Image, Video I-frame and IP-frame

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CIFF TECHNOLOGY CORPORATION

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  1. CIFF CODECFOR THE IMPROVEDBATTLESPACE INFORMATION DISSEMINATION USINGALREADY DEPLOYED ASSETSENABLING TECHNOLOGY FOR NETWORK CENTRIC WARFARE CIFF TECHNOLOGY CORPORATION

  2. 3. CIFF CODEC MAJOR FEATURES • Unified Lossy and Lossless • Still Image, Video I-frame and IP-frame • Symmetrical Encoding / Decoding • Ultralow Codec Latency • All 3 Video Scalabilities • Highest Error Resilience • Integer Arithmetic • No Multiplication & Division • 4:4:4, 4:2:2, 4:2:0, 4:0:0 YUV & RGB

  3. 4. CIFF CAPTURE

  4. 5. CIFF CAPTUREPREPROCESSING(DENOISING)

  5. 6. CIFF CAPTURE PREPROCESSING

  6. 7. CIFF PLAYER

  7. 8. CIFF PLAYER POSTPROCESSING

  8. 9. CIFF PLAYER POSTPROCESSING

  9. 10. HIGH RESOLUTION BENEFITS • Future proof – available today • Better situation awareness • More reliable machine analysis • Simpler decision making • Accurate targeting • IED activities spotting • Collateral damage minimization • Better evidence in disputed case • Decrease political burden

  10. 11. ULTRALOW LATENCY BENEFITS • Milliseconds latency • Faster information delivery • Faster decision making • Faster time-sensitive targeting • Faster C4ISR • Faster UAS operator response • Enabling air-refueling of UAV • EO, IR & Hyperspectral synchronization • Saving lives

  11. 12. BEST QUALITY

  12. 13. I-FRAME CIFF VS. I-FRAME OTHER“WEDDING” 1920x1080 25fps 4:2:0 Average PSNR [dB] CIFF-=CIFF WITH REDUCED LEVEL OF DETAILS. CR=COMPRESSION RATIO

  13. 14. I-CIFF VERSUS INTERFRAME (IPB)“WEDDING” 1920x1080 25fps 4:2:0 Average PSNR [dB] CIFF-=CIFF WITH REDUCED LEVEL OF DETAILS. CR=COMPRESSION RATIO

  14. 15. I-FRAME CIFF VS. IP-FRAME CIFF

  15. 16. FASTEST SPEED

  16. 17. “WEDDING” 1920x1080 25fps 4:2:0 Encoder Speed [fps] Decoder Speed [fps] CIFF-=CIFF WITH REDUCED LEVEL OF DETAILS. CR=COMPRESSION RATIO

  17. 18. “WEDDING” 1920x1080 25fps 4:2:0 Encoder Speed [fps] Decoder Speed [fps] CIFF-=CIFF WITH REDUCED LEVEL OF DETAILS. CR=COMPRESSION RATIO

  18. 19. INSTRUCTIONS PER PIXELEncoding COLOR Decoding

  19. 20. INSTRUCTIONS PER PIXELEncoding GRAYSCALE Decoding

  20. 21. LOWEST MEMORY SIZE

  21. 22. ENCODING MEMORY BUFFER • Smallest encoding memory buffer • 22..1427 times < JPEG • 165..8992* times < JPEG2000 w/o tiles • 56..868 times < JPEG2000 with 128x128 • 45..851 times < JPEG2000 with 32x32 * = lack of memory in 1GB PC

  22. 23. DECODING MEMORY BUFFER • Smallest decoding memory buffer • 19..857 times < JPEG • 116..8129* times < JPEG2000 w/o tiles • 42..866 times < JPEG2000 with 128x128 • 31..906 times < JPEG2000 with 32x32 * = lack of memory in 1GB PC

  23. 24. SPATIAL SCALABILITY Different resolutions in the bitstream QCIF CIF SDTV HDTV

  24. 25. SPATIAL SCALABILITY HDTV 1920x1080 ¼ QCIF 120x68 QCIF 240x135 CIF 480x270 SDTV 960x540

  25. 26. SPATIAL SCALABILITY BENEFITS UDTV streaming from UAS UDTV extraction in GCS HDTV extraction in a notebook SDTV extraction in a toughbook CIF extraction in PDA • Simultaneous receiption of all resolutions • Instant resolution change • Instant bandwidth change • Decoder power savings

  26. 27. TEMPORAL SCALABILITY Improving quality by decreasing frame rate

  27. 28. TEMPORAL SCALABILITY BENEFITS HDTV frame rate from close UAS Dropping selected HDTV frames SDTV frame rate from far UAS Dropping selected SDTV frames • Quality increase with dropping frames • Bandwidth savings • Encoder power savings • Decoder power savings • Avoids MPEG dropping problems

  28. 29. QUALITY SCALABILITY Improving quality by decompressing more bits from the bitstream

  29. 30. QUALITY SCALABILITY BENEFITS • Operator selectable • Faster video encoding • Smaller encoder latency • Smaller encoder cost • Encoder power savings • Faster video decoding • Smaller decoder latency • Smaller decoder cost • Decoder power savings

  30. MOTION JPEG JPEG2000 / CIFF MPEG-2 MPEG-4 & H.264 31. EFFECT OF ERRORS DURING TRANSMISSION (BER=1.E-4)

  31. 32. ERROR RESILIENCE BENEFITS #1 • Better quality of each frame • No error propagation • Frame blur vs. MPEG blocks • Smaller bandwidth with less FEC • Best quality without jamming • Best quality during jamming • Without FEC at 1.E-6 BER for HDTV • Without FEC at 1.E-5 BER for SDTV • Without FEC at 1.E-4 BER for CIF

  32. 33. ERROR RESILIENCE BENEFITS #2 • Simpler FEC can be used • Faster FEC encoding • Smaller encoder latency • Smaller encoder cost • Encoder power savings • Faster FEC decoding • Smaller decoder latency • Smaller decoder cost • Decoder power savings

  33. 34. DEFENSE APPLICATIONS • Unmanned & manned vehicles • Warfighters • Satellites • Surveillance • Telemedicine • Smart weapons • Loitering weapons • Face recognition for laser-guided bullets • EO, IR, SAR & Hyperspectral sensors

  34. 35. UAS WITH ANALOG LINK UAV EO IR SAR ANALOG LINK GROUND STATION STORAGE COMPUTER MONITOR

  35. FAST ENCODING/DECODING LOW LATENCY SMALL WEIGHT & SIZE LOW POWER & HEAT INTEROPERABILITY 36. UAS WITH ANALOG LINK UAV EO IR SAR ANALOG LINK PC PDA GROUND STATION CIFF DECODER CIFF DECODER STORAGE COMPUTER MONITOR COMPUTER MONITOR COMPUTER MONITOR (OPT)TRANS- CODER TO MPEG-2/4 CIFF ENCODER

  36. FAST ENCODING/DECODING HIGH ERROR RESILIENCE LOW LATENCY SMALL WEIGHT & SIZE LOW POWER & HEAT INTEROPERABILITY 37. UAS WITH DIGITAL LINK UAV CIFF ENCODER EO IR SAR DIGITAL LINK PC PDA GROUND STATION CIFF DECODER CIFF DECODER STORAGE CIFF DECODER COMPUTER MONITOR COMPUTER MONITOR (OPT)TRANS- CODER TO MPEG-2/4 COMPUTER MONITOR

  37. FAST ENCODING/DECODING HIGH ERROR RESILIENCE LOW LATENCY SMALL WEIGHT & SIZE LOW POWER & HEAT INTEROPERABILITY 38. UAS WITH NETWORK LINK UAV CIFF ENCODER EO IR SAR NETWORK UDP LINK PC PDA GROUND STATION CIFF DECODER CIFF DECODER STORAGE CIFF DECODER COMPUTER MONITOR COMPUTER MONITOR (OPT)TRANS- CODER TO MPEG-2/4 COMPUTER MONITOR

  38. 39. HIGH BANDWIDTH CIFF BENEFITS • Example 100 Mbps link • EDTV color 8192x4096x15 fps • EDTV grayscale 8192x4096x30 fps • UDTV color 3x3840x2160x25 fps • UDTV grayscale 5x3840x2160x25 fps • HDTV color 10x1920x1080x25 fps • HDTV grayscale 20x1920x1080x25 fps

  39. CDL LOS 274 Mbps 137 Mbps CDL LOS 10.71 Mbps

  40. 41. MID BANDWIDTH CIFF BENEFITS • Example 10 Mbps link • EDTV color 8192x4096x1.5 fps • EDTV grayscale 8192x4096x3 fps • UDTV color 3840x2160x6 fps • UDTV grayscale 3840x2160x12 fps • HDTV color 1920x1080x25 fps • HDTV grayscale 2x1920x1080x25 fps • SDTV color 4x720x480x30 fps • SDTV grayscale 8x720x480x30 fps

  41. Ku BAND 47.9/40 Mbps 30/20 Mbps 8.67/1.5 Mbps LINK-16 238 kbps 115.2 kbps 57.6 kbps 31.6 kbps

  42. 43. LOW BANDWIDTH CIFF BENEFITS • Example 238 kbps link • UDTV color 3840x2160x0.3 fps • UDTV grayscale 3840x2160x0.6 fps • HDTV color 1920x1080x0.6 fps • HDTV grayscale 1920x1080x1.2 fps • SDTV color 720x480x3 fps • SDTV grayscale 720x480x6 fps

  43. 44. HARDWARE FOR NEW ASSETS • Lowest cost • No dividers • No multipliers • Ultralow power • Integer arithmetic • Very low complexity • Small integrated memory • Ultrafast encoding and decoding • 1 square mm silicon for UDTV

  44. 45. PROPOSED CHIP FEATURES • 1920 x 1080 x 30fps 35MHz 20mW • 3840 x 2160 x 30fps 140MHz 80mW • 8192 x 4096 x 20fps 350MHz 200mW • 1920 x 1080 x 300fps 350MHz 200mW • Slow-motion 10 x HD frame rate • Additional circular buffer for slow-motion frames for detailed post-event analysis • Preliminary design data before full RTL core simulation

  45. 46. CIFF CONTAINER BENEFITS • Future proof container format • Any video codec as plug-in • Any audio codec as plug-in • Any metadata codec as plug-in • Any control codec as plug-in • Any encryption as plug-in • Any error correction as plug-in • Any packetization as plug-in • Multiple streams are synchronized

  46. 47. WIRELESS HDMI NETWORK DVR FUNCTION ON THE ROAD

  47. 48. CIFF HDMI CONNECTION HDMI HDMI HDMI CIFF Tx HDMI CIFF Rx HDMI CIFF Rx HDMI CIFF Tx INSTEAD OF CLASSIC WIRED HDMI CIFF P2P WIRELESS HDMI LINK CIFF ROUTED WIRELESS HDMI LINK

  48. 49. CIFF HDMI NODE TRANSMIT CIFF Node RECEIVE CIFF Node HDMI Rx 32bit RISC CIFF Enc 802.11g 802.11g 32bit RISC CIFF Dec HDMI Tx • Wireless HDMI IEEE802.11g/n • Wired HDMI 10/100/1000 Base-T • Transmitter at HDMI out port • Receiver at HDMI in port • AES-GCM-AEAD 256-bit encryption • Single chip without external memory

  49. CIFF TECHNOLOGY CORPORATION DIRECTORS, OWNERS & ASSIGNEES OF CIFF PATENT APPLICATION ARE: Prof. dr. Milan Prokin, dipl. ing. Vladimir Čeperković, dipl. ing. Saša Pavlović Dušan Mirković CIFF PATENT APPLICATIONS IN: USA, Canada, Europe, Japan South Korea, China (granted), Serbia, PCT WORLDWIDE CIFF REPRESENTATIVE: Prof. dr. Milan Prokin, dipl. ing.

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