SlideShare une entreprise Scribd logo

MeshDynamics Mesh Networks - Video Surveillance

MeshDynamics
MeshDynamics

The MeshDynamics MD4000 mesh node uses third generation mesh technology to maintain bandwidth over numerous hops without degradation, allowing for glitch-free video even over multiple hops. It utilizes multiple channels simultaneously to ensure minimal bandwidth loss. Additionally, features such as bonded channel technology and multiple downlink radios can further increase available bandwidth and support more cameras on the network compared to other vendors. The MD4000 has been tested sending video at 10Mbps on average while moving at 65mph over 5 hops.

Technologie
1  sur  20
Télécharger pour lire hors ligne
THE MESHDYNAMICS MD4000 IS THE IDEAL MESH NODE FOR VIDEO AND SURVEILLANCE APPLICATIONS. ITS COMPACT SIZE ALONG WITH SUPERIOR TECHNOLOGY AND EASE OF USE MAKE FOR A SWIFT INSTALLATION AND EFFORTLESS OPERATION. VIDEO APPLICATIONS TEND TO BE BANDWIDTH-INTENSIVE. MANY WIRELESS SYSTEMS SUFFER FROM JITTERY VIDEO DUE TO LACK OF AVAILABLE BANDWIDTH TRANSFERRED ACROSS THE BACKHAUL. THE MD4000 USES THIRD GENERATION MESH TECHNOLOGY TO MAINTAIN BANDWIDTH OVER NUMEROUS HOPS WITHOUT DEGRADATION. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE THIRD GENERATION BACKHAUL OF THE MD4000 USES MULTIPLE CHANNELS SIMULTANEOUSLY WITHIN THE UTILIZED SPECTRUM IN ORDER TO ENSURE MINIMAL BANDWIDTH LOSS AS THE NUMBER OF HOPS INCREASES. TYPICALLY, THE 5GHz SPECTRUM IS USED FOR THE BACKHAUL. SINCE DIFFERENT 5GHz CHANNELS ARE USED BY ADJACENT LINKS IN THE MESH, THERE IS NO INTERFERENCE ALONG THE BACKHAUL. THIS ALLOWS EACH NODE TO SEND AND RECEIVE AT THE SAME TIME. THEREFORE CONSERVING BANDWIDTH OVER MANY HOPS. ROOT NODE SEND/ SEND/ SEND/ SEND/ SEND/ SEND/ RECEIVE RECEIVE RECEIVE RECEIVE RECEIVE RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
FIRST AND SECOND GENERATION MESH NODES USE ONLY ONE CHANNEL OF A CERTAIN FREQUENCY SPECTRUM ACROSS ALL LINKS OF A BACKHAUL DURING OPERATION. A NODE IN THE MESH CANNOT SEND AND RECEIVE AT THE SAME TIME SINCE THE SAME FREQUENCY IS USED FOR BOTH FUNCTIONS. THIS MAKES FOR A VERY INEFFICIENT PROCESS THAT SEVERELY EFFECTS BANDWIDTH AS THE NUMBER OF HOPS INCREASES. THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK IS THEREFORE LIMITED. VIDEO APPLICATIONS CAN START TO ENCOUNTER ISSUES AFTER ONLY A FEW HOPS IN FIRST AND SECOND GENERATION MESHES. ROOT NODE NODE NODE NODE NODE NODE NODE SEND RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
FIRST AND SECOND GENERATION MESH NODES USE ONLY ONE CHANNEL OF A CERTAIN FREQUENCY SPECTRUM ACROSS ALL LINKS OF A BACKHAUL DURING OPERATION. A NODE IN THE MESH CANNOT SEND AND RECEIVE AT THE SAME TIME SINCE THE SAME FREQUENCY IS USED FOR BOTH FUNCTIONS. THIS MAKES FOR A VERY INEFFICIENT PROCESS THAT SEVERELY EFFECTS BANDWIDTH AS THE NUMBER OF HOPS INCREASES. THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK IS THEREFORE LIMITED. VIDEO APPLICATIONS CAN START TO ENCOUNTER ISSUES AFTER ONLY A FEW HOPS IN FIRST AND SECOND GENERATION MESHES. ROOT NODE NODE NODE NODE NODE NODE NODE SEND RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
ALTHOUGH MESHDYNAMICS THIRD GENERATION MESH NODES TYPICALLY USE THE 5GHz SPECTRUM FOR THE MULTI-CHANNEL BACKHAUL, THE 2.4GHz SPECTRUM AND THE 4.9GHz PUBLIC SAFETY BAND CAN ALSO BE USED. THE 5GHz SPECTRUM IS USED MAINLY FOR TWO REASONS: THERE IS MORE AVAILABLE CHANNEL SPACE IN THIS SPECTRUM ALLOWING FOR THE MOST NUMBER OF CHANNELS TO BE USED, AND BECAUSE IT IS A RELATIVELY CLEAN RF SPACE WHICH CATERS TO SMOOTH, GLITCH- FREE VIDEO. THE 2.4GHz SPECTRUM IS USUALLY USED FOR THE BACKHAUL IN RURAL AREAS WHERE GREAT DISTANCES ARE NEEDED, AND THE RF POLLUTION IS MUCH LIGHTER THAN IN CIVILIZED AREAS. THE 4.9GHz PUBLIC SAFTEY BAND IS A LICENSED BAND RESERVED FOR POLICE AND EMERGENCY SERVICES. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE RIGHT-HAND ETHERNET PORT ON THE MD4000 MESH NODE SERVES AS SWITCH PORT TO NETWORK DEVICES. THE DATA FROM CLIENTS OR DEVICES CONNECTED TO THIS PORT WILL BE SENT WIRELESSLY THROUGH THE MESH TO THE MAIN NETWORK. THE MOST BASIC WAY TO CREATE A WIRELESS SURVEILENCE SYSTEM USING THE MD4000 IS TO SIMPLY CONNECT AN IP CAMERA TO THE RIGHT-HAND ETHERNET PORT ON THE MESH NODE. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE RIGHT-HAND ETHERNET PORT ON THE MD4000 MESH NODE SERVES AS SWITCH PORT TO NETWORK DEVICES. THE DATA FROM CLIENTS OR DEVICES CONNECTED TO THIS PORT WILL BE SENT WIRELESSLY THROUGH THE MESH TO THE MAIN NETWORK. THE MOST BASIC WAY TO CREATE A WIRELESS SURVEILENCE SYSTEM USING THE MD4000 IS TO SIMPLY CONNECT AN IP CAMERA TO THE RIGHT-HAND ETHERNET PORT ON THE MESH NODE. RELAY NODE ROOT NODE mesh dynanmics mesh dynanmics NETWORK IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
IF MULTIPLE CAMERAS ARE NEEDED ON A SINGLE NODE, CONNECT A SWITCH TO THE RIGHT-HAND ETHERNET PORT, THEN CONNECT THE DESIRED NUMBERS OF CAMERAS TO THE SWITCH. RELAY NODE ROOT NODE mesh dynanmics mesh dynanmics SWITCH NETWORK IP CAMERA IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
TO DETERMINE THE MAXIMUM NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK, CAMERA SETTINGS MUST FIRST BE TAKEN INTO ACCOUNT. THE SETTINGS OF A CAMERA EFFECT HOW MUCH BANDWIDTH THE CAMERA WILL REQUIRE. THERE ARE SEVERAL SETTINGS THAT CAN BE APPLIED TO CAMERAS SUCH AS FRAME RATE, RESOLUTION, AND COMPRESSION TO NAME A FEW. THE TABLE BELOW GIVES BANDWIDTH VALUES FOR SOME COMMON CAMERA SETTINGS (640 x 480 RESOLUTION, MPEG4-30) WITH VARYING FRAME RATES. BANDWIDTH 1.4 CONSUMED 1.2 1.0 (Mbps) 0.8 0.6 FRAME SIZE 0.4 10KB 0.2 9KB 8KB 7KB 10 20 30 6KB (FRAMES PER SECOND) COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE 802.11a PROTOCOL, WHICH IS USED BY THE 5GHz BACKHAUL, CAN SUPPORT ROUGHLY 22Mbps OF THROUGHPUT ON EACH OF ITS NON- OVERLAPPING CHANNELS. IF A CAMERA IS SET TO CONSUME 1Mbps OF THROUGHPUT, THIS IMPLIES THAT AN 802.11a LINK CAN SUPPORT THE BANDWIDTH NEEDED BY 22 SUCH CAMERAS. TYPICALLY, THE NUMBER OF CAMREAS IS CUT BACK SLIGHTLY TO ALLOW FOR OTHER WIRELESS OVERHEAD ON THE LINK. IN ADDITION TO THE MULTI-CHANNEL, 3RD GENERATION BACKHAUL OF THE MD4000 WHICH ENABLES IT TO CARRY THIS 22Mbps OVER NUMEROUS HOPS WITHOUT BANDWIDTH DEGRADATION, THE MD4000 OFFERS FEATURES THAT CAN EVEN FURTHER INCREASE THE AVAILABLE BANDWIDTH ON THE NETWORK: BONDED CHANNEL TECHNOLOGY, AND MULTIPLE DOWNLINK RADIOS. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
BONDED CHANNEL TECHNOLOGY USES TWICE THE CHANNEL WIDTH AS STANDARD 802.11a/g CHANNELS (WHICH ARE TYPICALLY 20MHz WIDE), BUT GIVES TWICE THE THROUGHPUT OF THE STANDARD CHANNELS. A LINK USING BONDED CHANNEL TECHNOLOGY SUPPORTS APPROXIMATELY 44Mbps OF THROUGHPUT. 22Mbps 20MHz WIDE OFDM CHANNEL MASK 5745 MHz 5785 MHz 5825 MHz COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
BONDED CHANNEL TECHNOLOGY USES TWICE THE CHANNEL WIDTH AS STANDARD 802.11a/g CHANNELS (WHICH ARE TYPICALLY 20MHz WIDE), BUT GIVES TWICE THE THROUGHPUT OF THE STANDARD CHANNELS. A LINK USING BONDED CHANNEL TECHNOLOGY SUPPORTS APPROXIMATELY 44Mbps OF THROUGHPUT. 40MHz WIDE 44Mbps OFDM CHANNEL MASK 5745 MHz 5785 MHz 5825 MHz COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
MULTIPLE DOWNLINK RADIOS WILL GIVE A MESH MULTIPLE 22Mbps SOURCES OF BANDWIDTH. EACH DOWNLINK RADIO ON A ROOT NODE WILL PROVIDE A SEPARATE CHANNEL FOR RELAY NODES TO ASSOCIATE TO. WITH THE APPROPRIATE USE OF SECTOR ANTENNAS, THE MULTIPLE SOURCES OF BANDWIDTH CAN BE DISTRIBUTED ACROSS THE MESH. DOWNLINK Chn. B ANTENNA ( 22Mbps ) DOWNLINK Chn. A ANTENNA ( 22Mbps ) SIGNAL SPREAD ROOT DOWNLINK NODE ANTENNA Chn. B DOWNLINK ( 22Mbps ) ANTENNA DOWNLINK DOWNLINK ANTENNA ANTENNA ROOT SIGNAL SIGNAL NODE SPREAD SPREAD COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE DIAGRAM BELOW ILLUSTRATES HOW DIFFERENT GROUPS OF RELAY NODES GET THEIR OWN 22Mbps SOURCE OF BANDWIDTH FROM EACH OF THE ROOT NODE’S DOWNLINKS. ANTENNA SPREADS ARE SELECTED BASED ON THE LOCAL DISTRIBUTION OF RELAY NODES. THREE DOWNLINK RADIOS ARE USED IN THIS EXAMPLE. ROOT NODE RELAY NODE DOWNLINK ANTENNA SIGNAL SPREADS CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
WHILE OTHER VENDORS OFFER ONLY A SINGLE DOWNLINK RADIO ON THE ROOT NODE, WHICH CAN SEVERELY LIMIT THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ON A NETWORK, THE ABILITY OF THE MD4000 TO UTILIZE MULTIPLE DOWNLINK RADIOS ALLOWS FOR A SUBSTANTIAL INCREASE IN THE NUMBER OF NETWORK CAMERAS. ROOT NODE RELAY NODE DOWNLINK ANTENNA SIGNAL SPREADS CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE BENEFIT OF MULTIPLE DOWNLINK RADIOS CAN ALSO BE APPLIED TO RELAY NODES. A RELAY NODE’S UPLINK THAT HAS A BONDED-CHANNEL CONNECTION (44Mbps) CAN PROVIDE SEPARATE DOWNLINK CONNECTIONS OF 22Mbps TO DIFFERENT GEOGRAPHICAL LOCATIONS. THIS IS ESPECIALLY HELPFUL WHEN THERE ARE NODE CLUSTERS AND SURVEILLANCE AREAS ARE THAT ARE NON- LINE-OF-SITE FROM THE ROOT NODE. ROOT NODE (downlink antenna) s bp 44 MOUNTAIN M M bp 22 s 22Mbps RELAY NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE BENEFIT OF MULTIPLE DOWNLINK RADIOS CAN ALSO BE APPLIED TO RELAY NODES. A RELAY NODE’S UPLINK THAT HAS A BONDED-CHANNEL CONNECTION (44Mbps) CAN PROVIDE SEPARATE DOWNLINK CONNECTIONS OF 22Mbps TO DIFFERENT GEOGRAPHICAL LOCATIONS. THIS IS ESPECIALLY HELPFUL WHEN THERE ARE NODE CLUSTERS AND SURVEILLANCE AREAS ARE THAT ARE NON- LINE-OF-SITE FROM THE ROOT NODE. ROOT MOUNTAIN NODE node Cluster s bp 44 MOUNTAIN M M bp 22 s node RELAY 22Mbps cluster MOUNTAIN NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. ROOT NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. Throughput 21.00 18.00 15.00 12.00 (Mbps) 9.00 6.00 3.00 0.00 00:00 00:50 01:40 02:30 03:20 04:10 05:00 05:50 06:40 07:50 Elapsed Time (mm:ss) COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS

Recommandé

Hybrid F Sona Bridgwave Gig E Wireless
Hybrid F Sona Bridgwave Gig E WirelessHybrid F Sona Bridgwave Gig E Wireless
Hybrid F Sona Bridgwave Gig E Wireless
minneho
 
Presentation2[1]
Presentation2[1]Presentation2[1]
Presentation2[1]
minneho
 
ComNet FVT80SFP Data Sheet
ComNet FVT80SFP Data SheetComNet FVT80SFP Data Sheet
ComNet FVT80SFP Data Sheet
JMAC Supply
 
One business avenue business protfolio
One business avenue business protfolioOne business avenue business protfolio
One business avenue business protfolio
OneBusinessAvenue
 
RUGGEDCOM WIN5100 wimax
RUGGEDCOM WIN5100 wimaxRUGGEDCOM WIN5100 wimax
RUGGEDCOM WIN5100 wimax
ashwini reliserv
 
Sub10 presentation
Sub10 presentationSub10 presentation
Sub10 presentation
Advantec Distribution
 
Sub10 product leaflet
Sub10 product leafletSub10 product leaflet
Sub10 product leaflet
Advantec Distribution
 
Solectek Corporate Overview Wireless Solution For Ip Camera
Solectek Corporate Overview Wireless Solution For Ip CameraSolectek Corporate Overview Wireless Solution For Ip Camera
Solectek Corporate Overview Wireless Solution For Ip Camera
Ali Shoaee
 

Recommandé

Hybrid F Sona Bridgwave Gig E Wireless
Hybrid F Sona Bridgwave Gig E WirelessHybrid F Sona Bridgwave Gig E Wireless
Hybrid F Sona Bridgwave Gig E Wireless
minneho
 
Presentation2[1]
Presentation2[1]Presentation2[1]
Presentation2[1]
minneho
 
ComNet FVT80SFP Data Sheet
ComNet FVT80SFP Data SheetComNet FVT80SFP Data Sheet
ComNet FVT80SFP Data Sheet
JMAC Supply
 
One business avenue business protfolio
One business avenue business protfolioOne business avenue business protfolio
One business avenue business protfolio
OneBusinessAvenue
 
RUGGEDCOM WIN5100 wimax
RUGGEDCOM WIN5100 wimaxRUGGEDCOM WIN5100 wimax
RUGGEDCOM WIN5100 wimax
ashwini reliserv
 
Sub10 presentation
Sub10 presentationSub10 presentation
Sub10 presentation
Advantec Distribution
 
Sub10 product leaflet
Sub10 product leafletSub10 product leaflet
Sub10 product leaflet
Advantec Distribution
 
Solectek Corporate Overview Wireless Solution For Ip Camera
Solectek Corporate Overview Wireless Solution For Ip CameraSolectek Corporate Overview Wireless Solution For Ip Camera
Solectek Corporate Overview Wireless Solution For Ip Camera
Ali Shoaee
 
Altai Wireless
Altai WirelessAltai Wireless
Altai Wireless
Yudhistira Sutjipto
 
Widhop product datasheet
Widhop product datasheetWidhop product datasheet
Widhop product datasheet
Ercole Rovida
 
3G Offload
3G Offload 3G Offload
3G Offload
Yudhistira Sutjipto
 
Wireless Network Technology
Wireless Network TechnologyWireless Network Technology
Wireless Network Technology
kp12 buniel
 
ComNet FVT40SFP Data Sheet
ComNet FVT40SFP Data SheetComNet FVT40SFP Data Sheet
ComNet FVT40SFP Data Sheet
JMAC Supply
 
Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)
Broto Santoso
 
Ciphop product datasheet
Ciphop product datasheetCiphop product datasheet
Ciphop product datasheet
Ercole Rovida
 
Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007
Jon Marcy
 
Small Cell Backhaul Technology
Small Cell Backhaul TechnologySmall Cell Backhaul Technology
Small Cell Backhaul Technology
Aviat Networks
 
JVC FS-790-TNCG
JVC FS-790-TNCGJVC FS-790-TNCG
JVC FS-790-TNCG
AV ProfShop
 
Alvarion Breeze Max 2300 2500 3500 - Product Brochure
Alvarion Breeze Max 2300 2500 3500 - Product BrochureAlvarion Breeze Max 2300 2500 3500 - Product Brochure
Alvarion Breeze Max 2300 2500 3500 - Product Brochure
Gerry Cohen
 
WiMax - Technology & Architecture
WiMax - Technology & ArchitectureWiMax - Technology & Architecture
WiMax - Technology & Architecture
sashar86
 
Ruijie wireless product overview
Ruijie wireless product overviewRuijie wireless product overview
Ruijie wireless product overview
Husam Al-Hasani
 
Dasan zhone mxk_msan_solution
Dasan zhone mxk_msan_solutionDasan zhone mxk_msan_solution
Dasan zhone mxk_msan_solution
Husam Al-Hasani
 
Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009
MathewEdwards
 
Mesh Networks in Underground Mining [MeshDynamics]
Mesh Networks in Underground Mining [MeshDynamics]Mesh Networks in Underground Mining [MeshDynamics]
Mesh Networks in Underground Mining [MeshDynamics]
MeshDynamics
 
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300MbpsXLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
Hotware International Inc.
 
Wisp Wi Fi Wi Max Mesh Systems 2010
Wisp Wi Fi Wi Max Mesh Systems 2010Wisp Wi Fi Wi Max Mesh Systems 2010
Wisp Wi Fi Wi Max Mesh Systems 2010
Hotware International Inc.
 
R5000 mmxbs-5x-300-2x500-2x16(2)
R5000 mmxbs-5x-300-2x500-2x16(2)R5000 mmxbs-5x-300-2x500-2x16(2)
R5000 mmxbs-5x-300-2x500-2x16(2)
Hussam Technology Company LLC
 
MeshDynamics MD4000 Training Webcast slides
MeshDynamics MD4000 Training Webcast slidesMeshDynamics MD4000 Training Webcast slides
MeshDynamics MD4000 Training Webcast slides
MeshDynamics
 
MeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video SlidesMeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics
 
What will 5 g be
What will 5 g beWhat will 5 g be
What will 5 g be
Vishnu Prasad J
 

Contenu connexe

Tendances

Wireless Network Technology
Wireless Network TechnologyWireless Network Technology
Wireless Network Technology
kp12 buniel
 
Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)
Broto Santoso
 
Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007
Jon Marcy
 
Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009
MathewEdwards
 

Tendances (19)

Altai Wireless
Altai WirelessAltai Wireless
Altai Wireless
 
Widhop product datasheet
Widhop product datasheetWidhop product datasheet
Widhop product datasheet
 
3G Offload
3G Offload 3G Offload
3G Offload
 
Wireless Network Technology
Wireless Network TechnologyWireless Network Technology
Wireless Network Technology
 
ComNet FVT40SFP Data Sheet
ComNet FVT40SFP Data SheetComNet FVT40SFP Data Sheet
ComNet FVT40SFP Data Sheet
 
Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)Hybrid fiber powerline communicatiion (hfpc)
Hybrid fiber powerline communicatiion (hfpc)
 
Ciphop product datasheet
Ciphop product datasheetCiphop product datasheet
Ciphop product datasheet
 
Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007Secure WIMAX network demo AFCEA West 2007
Secure WIMAX network demo AFCEA West 2007
 
Small Cell Backhaul Technology
Small Cell Backhaul TechnologySmall Cell Backhaul Technology
Small Cell Backhaul Technology
 
JVC FS-790-TNCG
JVC FS-790-TNCGJVC FS-790-TNCG
JVC FS-790-TNCG
 
Alvarion Breeze Max 2300 2500 3500 - Product Brochure
Alvarion Breeze Max 2300 2500 3500 - Product BrochureAlvarion Breeze Max 2300 2500 3500 - Product Brochure
Alvarion Breeze Max 2300 2500 3500 - Product Brochure
 
WiMax - Technology & Architecture
WiMax - Technology & ArchitectureWiMax - Technology & Architecture
WiMax - Technology & Architecture
 
Ruijie wireless product overview
Ruijie wireless product overviewRuijie wireless product overview
Ruijie wireless product overview
 
Dasan zhone mxk_msan_solution
Dasan zhone mxk_msan_solutionDasan zhone mxk_msan_solution
Dasan zhone mxk_msan_solution
 
Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009Extricom Corporate Brochure 2009
Extricom Corporate Brochure 2009
 
Mesh Networks in Underground Mining [MeshDynamics]
Mesh Networks in Underground Mining [MeshDynamics]Mesh Networks in Underground Mining [MeshDynamics]
Mesh Networks in Underground Mining [MeshDynamics]
 
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300MbpsXLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
XLINK-A300N Mobile IP City Wi-Fi System AP rated 300Mbps
 
Wisp Wi Fi Wi Max Mesh Systems 2010
Wisp Wi Fi Wi Max Mesh Systems 2010Wisp Wi Fi Wi Max Mesh Systems 2010
Wisp Wi Fi Wi Max Mesh Systems 2010
 
R5000 mmxbs-5x-300-2x500-2x16(2)
R5000 mmxbs-5x-300-2x500-2x16(2)R5000 mmxbs-5x-300-2x500-2x16(2)
R5000 mmxbs-5x-300-2x500-2x16(2)
 

Similaire à MeshDynamics Mesh Networks - Video Surveillance

MeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video SlidesMeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics
 
Promix Tsunami MP-8100
Promix Tsunami MP-8100Promix Tsunami MP-8100
Promix Tsunami MP-8100
Ari Zoldan
 
Md4000 mesh suite-intro
Md4000 mesh suite-introMd4000 mesh suite-intro
Md4000 mesh suite-intro
MeshDynamics
 
MeshDynamics Mesh Network Layout Design (Examples)
MeshDynamics Mesh Network Layout Design (Examples)MeshDynamics Mesh Network Layout Design (Examples)
MeshDynamics Mesh Network Layout Design (Examples)
MeshDynamics
 

Similaire à MeshDynamics Mesh Networks - Video Surveillance (20)

MeshDynamics MD4000 Training Webcast slides
MeshDynamics MD4000 Training Webcast slidesMeshDynamics MD4000 Training Webcast slides
MeshDynamics MD4000 Training Webcast slides
 
MeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video SlidesMeshDynamics Mesh Networks - Youtube Video Slides
MeshDynamics Mesh Networks - Youtube Video Slides
 
What will 5 g be
What will 5 g beWhat will 5 g be
What will 5 g be
 
What will 5 g be
What will 5 g beWhat will 5 g be
What will 5 g be
 
Mesh update raymond external
Mesh update raymond externalMesh update raymond external
Mesh update raymond external
 
Mesh Training
Mesh Training Mesh Training
Mesh Training
 
Nano beam 2ac_ds
Nano beam 2ac_dsNano beam 2ac_ds
Nano beam 2ac_ds
 
MeshDynamics Mesh Networks- High Level Overview
MeshDynamics Mesh Networks- High Level OverviewMeshDynamics Mesh Networks- High Level Overview
MeshDynamics Mesh Networks- High Level Overview
 
Millimeter Wave mobile communications for 5g cellular
Millimeter Wave mobile communications for 5g cellularMillimeter Wave mobile communications for 5g cellular
Millimeter Wave mobile communications for 5g cellular
 
5 Things You Should Know About Fronthaul
5 Things You Should Know About Fronthaul5 Things You Should Know About Fronthaul
5 Things You Should Know About Fronthaul
 
3 g tutorial
3 g tutorial3 g tutorial
3 g tutorial
 
Promix Tsunami MP-8100
Promix Tsunami MP-8100Promix Tsunami MP-8100
Promix Tsunami MP-8100
 
5G antenna-Technology
5G antenna-Technology5G antenna-Technology
5G antenna-Technology
 
Md4000 mesh suite-intro
Md4000 mesh suite-introMd4000 mesh suite-intro
Md4000 mesh suite-intro
 
MeshDynamics Mesh Network Layout Design (Examples)
MeshDynamics Mesh Network Layout Design (Examples)MeshDynamics Mesh Network Layout Design (Examples)
MeshDynamics Mesh Network Layout Design (Examples)
 
IRJET- Implementation of Private GSM Network for Disaster Management and ...
IRJET- Implementation of Private GSM Network for Disaster Management and ...IRJET- Implementation of Private GSM Network for Disaster Management and ...
IRJET- Implementation of Private GSM Network for Disaster Management and ...
 
Ntc 6908 spec-sheet_es
Ntc 6908 spec-sheet_esNtc 6908 spec-sheet_es
Ntc 6908 spec-sheet_es
 
CHOKI
CHOKICHOKI
CHOKI
 
OMMIC presentation on fabrication of MMIC integrated with MEMs RF
OMMIC presentation on fabrication of MMIC integrated with MEMs RFOMMIC presentation on fabrication of MMIC integrated with MEMs RF
OMMIC presentation on fabrication of MMIC integrated with MEMs RF
 
IoT Needs Good Neighbours - Cognitive Radio Turns Enemies into Friends
IoT Needs Good Neighbours - Cognitive Radio Turns Enemies into FriendsIoT Needs Good Neighbours - Cognitive Radio Turns Enemies into Friends
IoT Needs Good Neighbours - Cognitive Radio Turns Enemies into Friends
 

Plus de MeshDynamics

Chirp_Primer_Slides:ULtra Low Power Edge Connectivity
Chirp_Primer_Slides:ULtra Low Power Edge ConnectivityChirp_Primer_Slides:ULtra Low Power Edge Connectivity
Chirp_Primer_Slides:ULtra Low Power Edge Connectivity
MeshDynamics
 
small-dumb-cheap-and-copious-the-future-of-the-internet-of-things
small-dumb-cheap-and-copious-the-future-of-the-internet-of-thingssmall-dumb-cheap-and-copious-the-future-of-the-internet-of-things
small-dumb-cheap-and-copious-the-future-of-the-internet-of-things
MeshDynamics
 
Towards Rapid Implementation of Adaptive Robotic Systems
Towards Rapid Implementation of Adaptive Robotic SystemsTowards Rapid Implementation of Adaptive Robotic Systems
Towards Rapid Implementation of Adaptive Robotic Systems
MeshDynamics
 
An Integrated Prototyping Environment For Programmable Automation
An Integrated Prototyping Environment For Programmable AutomationAn Integrated Prototyping Environment For Programmable Automation
An Integrated Prototyping Environment For Programmable Automation
MeshDynamics
 
The Abstracted Network for Industrial Internet
The Abstracted Network for Industrial InternetThe Abstracted Network for Industrial Internet
The Abstracted Network for Industrial Internet
MeshDynamics
 
MeshDynamics Disruption Tolerant Networks
MeshDynamics Disruption Tolerant NetworksMeshDynamics Disruption Tolerant Networks
MeshDynamics Disruption Tolerant Networks
MeshDynamics
 
Scale-able Internet of Things (Presented June 12015)
Scale-able Internet of Things (Presented June 12015) Scale-able Internet of Things (Presented June 12015)
Scale-able Internet of Things (Presented June 12015)
MeshDynamics
 
Open Source For Self Classification of Data Stream in the Internet Of Things.
Open Source For Self Classification of Data Stream in the Internet Of Things. Open Source For Self Classification of Data Stream in the Internet Of Things.
Open Source For Self Classification of Data Stream in the Internet Of Things.
MeshDynamics
 
MeshDynamics P3M Persistent and Dynamic Mesh Networks
MeshDynamics P3M Persistent and Dynamic Mesh NetworksMeshDynamics P3M Persistent and Dynamic Mesh Networks
MeshDynamics P3M Persistent and Dynamic Mesh Networks
MeshDynamics
 
MeshDynamics MD4000 Mesh Network Deployment- Best Practices
MeshDynamics MD4000 Mesh Network Deployment- Best PracticesMeshDynamics MD4000 Mesh Network Deployment- Best Practices
MeshDynamics MD4000 Mesh Network Deployment- Best Practices
MeshDynamics
 

Plus de MeshDynamics (20)

Chirp_Primer_Slides:ULtra Low Power Edge Connectivity
Chirp_Primer_Slides:ULtra Low Power Edge ConnectivityChirp_Primer_Slides:ULtra Low Power Edge Connectivity
Chirp_Primer_Slides:ULtra Low Power Edge Connectivity
 
small-dumb-cheap-and-copious-the-future-of-the-internet-of-things
small-dumb-cheap-and-copious-the-future-of-the-internet-of-thingssmall-dumb-cheap-and-copious-the-future-of-the-internet-of-things
small-dumb-cheap-and-copious-the-future-of-the-internet-of-things
 
Francis da costa rethinks the internet of things zd_net
Francis da costa rethinks the internet of things zd_netFrancis da costa rethinks the internet of things zd_net
Francis da costa rethinks the internet of things zd_net
 
Chirp Networks for Industrial Internet and Real time M2M
Chirp Networks for Industrial Internet and Real time M2MChirp Networks for Industrial Internet and Real time M2M
Chirp Networks for Industrial Internet and Real time M2M
 
Strategies for IIOT and M2M Networking
Strategies for IIOT and M2M NetworkingStrategies for IIOT and M2M Networking
Strategies for IIOT and M2M Networking
 
IOT Solutions and Challenges
IOT Solutions and ChallengesIOT Solutions and Challenges
IOT Solutions and Challenges
 
Towards Rapid Implementation of Adaptive Robotic Systems
Towards Rapid Implementation of Adaptive Robotic SystemsTowards Rapid Implementation of Adaptive Robotic Systems
Towards Rapid Implementation of Adaptive Robotic Systems
 
An Integrated Prototyping Environment For Programmable Automation
An Integrated Prototyping Environment For Programmable AutomationAn Integrated Prototyping Environment For Programmable Automation
An Integrated Prototyping Environment For Programmable Automation
 
Chirp Networks
Chirp NetworksChirp Networks
Chirp Networks
 
The Abstracted Network for Industrial Internet- Slides
The Abstracted Network for Industrial Internet- SlidesThe Abstracted Network for Industrial Internet- Slides
The Abstracted Network for Industrial Internet- Slides
 
The Abstracted Network for Industrial Internet
The Abstracted Network for Industrial InternetThe Abstracted Network for Industrial Internet
The Abstracted Network for Industrial Internet
 
MeshDynamics Disruption Tolerant Networks
MeshDynamics Disruption Tolerant NetworksMeshDynamics Disruption Tolerant Networks
MeshDynamics Disruption Tolerant Networks
 
Scale-able Internet of Things (Presented June 12015)
Scale-able Internet of Things (Presented June 12015) Scale-able Internet of Things (Presented June 12015)
Scale-able Internet of Things (Presented June 12015)
 
Iot conference-oct-2014
Iot conference-oct-2014Iot conference-oct-2014
Iot conference-oct-2014
 
Open Source For Self Classification of Data Stream in the Internet Of Things.
Open Source For Self Classification of Data Stream in the Internet Of Things. Open Source For Self Classification of Data Stream in the Internet Of Things.
Open Source For Self Classification of Data Stream in the Internet Of Things.
 
MeshDynamics P3M Persistent and Dynamic Mesh Networks
MeshDynamics P3M Persistent and Dynamic Mesh NetworksMeshDynamics P3M Persistent and Dynamic Mesh Networks
MeshDynamics P3M Persistent and Dynamic Mesh Networks
 
MeshDynamics MD4000 Mesh Network Products - Installation Guide
MeshDynamics MD4000 Mesh Network Products - Installation GuideMeshDynamics MD4000 Mesh Network Products - Installation Guide
MeshDynamics MD4000 Mesh Network Products - Installation Guide
 
MeshDynamics MD4000 Mesh Network Deployment- Best Practices
MeshDynamics MD4000 Mesh Network Deployment- Best PracticesMeshDynamics MD4000 Mesh Network Deployment- Best Practices
MeshDynamics MD4000 Mesh Network Deployment- Best Practices
 
Military, Defense and Public Safety Mesh Networks [MeshDynamics]
Military, Defense and Public Safety Mesh Networks [MeshDynamics]Military, Defense and Public Safety Mesh Networks [MeshDynamics]
Military, Defense and Public Safety Mesh Networks [MeshDynamics]
 
Battelle AoA Evaluation Report on Military Mesh Network Products
Battelle AoA Evaluation Report on Military Mesh Network Products Battelle AoA Evaluation Report on Military Mesh Network Products
Battelle AoA Evaluation Report on Military Mesh Network Products
 

Dernier

Artificial Intelligence: Facts and Myths
Artificial Intelligence: Facts and MythsArtificial Intelligence: Facts and Myths
Artificial Intelligence: Facts and Myths
Joaquim Jorge
 
Why Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire businessWhy Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire business
panagenda
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Safe Software
 
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
Miguel Araújo
 
Understanding Discord NSFW Servers A Guide for Responsible Users.pdf
Understanding Discord NSFW Servers A Guide for Responsible Users.pdfUnderstanding Discord NSFW Servers A Guide for Responsible Users.pdf
Understanding Discord NSFW Servers A Guide for Responsible Users.pdf
UK Journal
 

Dernier (20)

AWS Community Day CPH - Three problems of Terraform
AWS Community Day CPH - Three problems of TerraformAWS Community Day CPH - Three problems of Terraform
AWS Community Day CPH - Three problems of Terraform
 
A Domino Admins Adventures (Engage 2024)
A Domino Admins Adventures (Engage 2024)A Domino Admins Adventures (Engage 2024)
A Domino Admins Adventures (Engage 2024)
 
Exploring the Future Potential of AI-Enabled Smartphone Processors
Exploring the Future Potential of AI-Enabled Smartphone ProcessorsExploring the Future Potential of AI-Enabled Smartphone Processors
Exploring the Future Potential of AI-Enabled Smartphone Processors
 
Artificial Intelligence Chap.5 : Uncertainty
Artificial Intelligence Chap.5 : UncertaintyArtificial Intelligence Chap.5 : Uncertainty
Artificial Intelligence Chap.5 : Uncertainty
 
Artificial Intelligence: Facts and Myths
Artificial Intelligence: Facts and MythsArtificial Intelligence: Facts and Myths
Artificial Intelligence: Facts and Myths
 
Partners Life - Insurer Innovation Award 2024
Partners Life - Insurer Innovation Award 2024Partners Life - Insurer Innovation Award 2024
Partners Life - Insurer Innovation Award 2024
 
MINDCTI Revenue Release Quarter One 2024
MINDCTI Revenue Release Quarter One 2024MINDCTI Revenue Release Quarter One 2024
MINDCTI Revenue Release Quarter One 2024
 
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, AdobeApidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
 
Why Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire businessWhy Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire business
 
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
 
Apidays Singapore 2024 - Building Digital Trust in a Digital Economy by Veron...
Apidays Singapore 2024 - Building Digital Trust in a Digital Economy by Veron...Apidays Singapore 2024 - Building Digital Trust in a Digital Economy by Veron...
Apidays Singapore 2024 - Building Digital Trust in a Digital Economy by Veron...
 
2024: Domino Containers - The Next Step. News from the Domino Container commu...
2024: Domino Containers - The Next Step. News from the Domino Container commu...2024: Domino Containers - The Next Step. News from the Domino Container commu...
2024: Domino Containers - The Next Step. News from the Domino Container commu...
 
The 7 Things I Know About Cyber Security After 25 Years | April 2024
The 7 Things I Know About Cyber Security After 25 Years | April 2024The 7 Things I Know About Cyber Security After 25 Years | April 2024
The 7 Things I Know About Cyber Security After 25 Years | April 2024
 
Apidays New York 2024 - The Good, the Bad and the Governed by David O'Neill, ...
Apidays New York 2024 - The Good, the Bad and the Governed by David O'Neill, ...Apidays New York 2024 - The Good, the Bad and the Governed by David O'Neill, ...
Apidays New York 2024 - The Good, the Bad and the Governed by David O'Neill, ...
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
 
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
Mastering MySQL Database Architecture: Deep Dive into MySQL Shell and MySQL R...
 
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemkeProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
 
Real Time Object Detection Using Open CV
Real Time Object Detection Using Open CVReal Time Object Detection Using Open CV
Real Time Object Detection Using Open CV
 
Understanding Discord NSFW Servers A Guide for Responsible Users.pdf
Understanding Discord NSFW Servers A Guide for Responsible Users.pdfUnderstanding Discord NSFW Servers A Guide for Responsible Users.pdf
Understanding Discord NSFW Servers A Guide for Responsible Users.pdf
 
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
Bajaj Allianz Life Insurance Company - Insurer Innovation Award 2024
 

MeshDynamics Mesh Networks - Video Surveillance

  • 1. THE MESHDYNAMICS MD4000 IS THE IDEAL MESH NODE FOR VIDEO AND SURVEILLANCE APPLICATIONS. ITS COMPACT SIZE ALONG WITH SUPERIOR TECHNOLOGY AND EASE OF USE MAKE FOR A SWIFT INSTALLATION AND EFFORTLESS OPERATION. VIDEO APPLICATIONS TEND TO BE BANDWIDTH-INTENSIVE. MANY WIRELESS SYSTEMS SUFFER FROM JITTERY VIDEO DUE TO LACK OF AVAILABLE BANDWIDTH TRANSFERRED ACROSS THE BACKHAUL. THE MD4000 USES THIRD GENERATION MESH TECHNOLOGY TO MAINTAIN BANDWIDTH OVER NUMEROUS HOPS WITHOUT DEGRADATION. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 2. THE THIRD GENERATION BACKHAUL OF THE MD4000 USES MULTIPLE CHANNELS SIMULTANEOUSLY WITHIN THE UTILIZED SPECTRUM IN ORDER TO ENSURE MINIMAL BANDWIDTH LOSS AS THE NUMBER OF HOPS INCREASES. TYPICALLY, THE 5GHz SPECTRUM IS USED FOR THE BACKHAUL. SINCE DIFFERENT 5GHz CHANNELS ARE USED BY ADJACENT LINKS IN THE MESH, THERE IS NO INTERFERENCE ALONG THE BACKHAUL. THIS ALLOWS EACH NODE TO SEND AND RECEIVE AT THE SAME TIME. THEREFORE CONSERVING BANDWIDTH OVER MANY HOPS. ROOT NODE SEND/ SEND/ SEND/ SEND/ SEND/ SEND/ RECEIVE RECEIVE RECEIVE RECEIVE RECEIVE RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 3. FIRST AND SECOND GENERATION MESH NODES USE ONLY ONE CHANNEL OF A CERTAIN FREQUENCY SPECTRUM ACROSS ALL LINKS OF A BACKHAUL DURING OPERATION. A NODE IN THE MESH CANNOT SEND AND RECEIVE AT THE SAME TIME SINCE THE SAME FREQUENCY IS USED FOR BOTH FUNCTIONS. THIS MAKES FOR A VERY INEFFICIENT PROCESS THAT SEVERELY EFFECTS BANDWIDTH AS THE NUMBER OF HOPS INCREASES. THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK IS THEREFORE LIMITED. VIDEO APPLICATIONS CAN START TO ENCOUNTER ISSUES AFTER ONLY A FEW HOPS IN FIRST AND SECOND GENERATION MESHES. ROOT NODE NODE NODE NODE NODE NODE NODE SEND RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 4. FIRST AND SECOND GENERATION MESH NODES USE ONLY ONE CHANNEL OF A CERTAIN FREQUENCY SPECTRUM ACROSS ALL LINKS OF A BACKHAUL DURING OPERATION. A NODE IN THE MESH CANNOT SEND AND RECEIVE AT THE SAME TIME SINCE THE SAME FREQUENCY IS USED FOR BOTH FUNCTIONS. THIS MAKES FOR A VERY INEFFICIENT PROCESS THAT SEVERELY EFFECTS BANDWIDTH AS THE NUMBER OF HOPS INCREASES. THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK IS THEREFORE LIMITED. VIDEO APPLICATIONS CAN START TO ENCOUNTER ISSUES AFTER ONLY A FEW HOPS IN FIRST AND SECOND GENERATION MESHES. ROOT NODE NODE NODE NODE NODE NODE NODE SEND RECEIVE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 5. ALTHOUGH MESHDYNAMICS THIRD GENERATION MESH NODES TYPICALLY USE THE 5GHz SPECTRUM FOR THE MULTI-CHANNEL BACKHAUL, THE 2.4GHz SPECTRUM AND THE 4.9GHz PUBLIC SAFETY BAND CAN ALSO BE USED. THE 5GHz SPECTRUM IS USED MAINLY FOR TWO REASONS: THERE IS MORE AVAILABLE CHANNEL SPACE IN THIS SPECTRUM ALLOWING FOR THE MOST NUMBER OF CHANNELS TO BE USED, AND BECAUSE IT IS A RELATIVELY CLEAN RF SPACE WHICH CATERS TO SMOOTH, GLITCH- FREE VIDEO. THE 2.4GHz SPECTRUM IS USUALLY USED FOR THE BACKHAUL IN RURAL AREAS WHERE GREAT DISTANCES ARE NEEDED, AND THE RF POLLUTION IS MUCH LIGHTER THAN IN CIVILIZED AREAS. THE 4.9GHz PUBLIC SAFTEY BAND IS A LICENSED BAND RESERVED FOR POLICE AND EMERGENCY SERVICES. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 6. THE RIGHT-HAND ETHERNET PORT ON THE MD4000 MESH NODE SERVES AS SWITCH PORT TO NETWORK DEVICES. THE DATA FROM CLIENTS OR DEVICES CONNECTED TO THIS PORT WILL BE SENT WIRELESSLY THROUGH THE MESH TO THE MAIN NETWORK. THE MOST BASIC WAY TO CREATE A WIRELESS SURVEILENCE SYSTEM USING THE MD4000 IS TO SIMPLY CONNECT AN IP CAMERA TO THE RIGHT-HAND ETHERNET PORT ON THE MESH NODE. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 7. THE RIGHT-HAND ETHERNET PORT ON THE MD4000 MESH NODE SERVES AS SWITCH PORT TO NETWORK DEVICES. THE DATA FROM CLIENTS OR DEVICES CONNECTED TO THIS PORT WILL BE SENT WIRELESSLY THROUGH THE MESH TO THE MAIN NETWORK. THE MOST BASIC WAY TO CREATE A WIRELESS SURVEILENCE SYSTEM USING THE MD4000 IS TO SIMPLY CONNECT AN IP CAMERA TO THE RIGHT-HAND ETHERNET PORT ON THE MESH NODE. RELAY NODE ROOT NODE mesh dynanmics mesh dynanmics NETWORK IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 8. IF MULTIPLE CAMERAS ARE NEEDED ON A SINGLE NODE, CONNECT A SWITCH TO THE RIGHT-HAND ETHERNET PORT, THEN CONNECT THE DESIRED NUMBERS OF CAMERAS TO THE SWITCH. RELAY NODE ROOT NODE mesh dynanmics mesh dynanmics SWITCH NETWORK IP CAMERA IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 9. TO DETERMINE THE MAXIMUM NUMBER OF CAMERAS THAT CAN BE INSTALLED ONTO A NETWORK, CAMERA SETTINGS MUST FIRST BE TAKEN INTO ACCOUNT. THE SETTINGS OF A CAMERA EFFECT HOW MUCH BANDWIDTH THE CAMERA WILL REQUIRE. THERE ARE SEVERAL SETTINGS THAT CAN BE APPLIED TO CAMERAS SUCH AS FRAME RATE, RESOLUTION, AND COMPRESSION TO NAME A FEW. THE TABLE BELOW GIVES BANDWIDTH VALUES FOR SOME COMMON CAMERA SETTINGS (640 x 480 RESOLUTION, MPEG4-30) WITH VARYING FRAME RATES. BANDWIDTH 1.4 CONSUMED 1.2 1.0 (Mbps) 0.8 0.6 FRAME SIZE 0.4 10KB 0.2 9KB 8KB 7KB 10 20 30 6KB (FRAMES PER SECOND) COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 10. THE 802.11a PROTOCOL, WHICH IS USED BY THE 5GHz BACKHAUL, CAN SUPPORT ROUGHLY 22Mbps OF THROUGHPUT ON EACH OF ITS NON- OVERLAPPING CHANNELS. IF A CAMERA IS SET TO CONSUME 1Mbps OF THROUGHPUT, THIS IMPLIES THAT AN 802.11a LINK CAN SUPPORT THE BANDWIDTH NEEDED BY 22 SUCH CAMERAS. TYPICALLY, THE NUMBER OF CAMREAS IS CUT BACK SLIGHTLY TO ALLOW FOR OTHER WIRELESS OVERHEAD ON THE LINK. IN ADDITION TO THE MULTI-CHANNEL, 3RD GENERATION BACKHAUL OF THE MD4000 WHICH ENABLES IT TO CARRY THIS 22Mbps OVER NUMEROUS HOPS WITHOUT BANDWIDTH DEGRADATION, THE MD4000 OFFERS FEATURES THAT CAN EVEN FURTHER INCREASE THE AVAILABLE BANDWIDTH ON THE NETWORK: BONDED CHANNEL TECHNOLOGY, AND MULTIPLE DOWNLINK RADIOS. COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 11. BONDED CHANNEL TECHNOLOGY USES TWICE THE CHANNEL WIDTH AS STANDARD 802.11a/g CHANNELS (WHICH ARE TYPICALLY 20MHz WIDE), BUT GIVES TWICE THE THROUGHPUT OF THE STANDARD CHANNELS. A LINK USING BONDED CHANNEL TECHNOLOGY SUPPORTS APPROXIMATELY 44Mbps OF THROUGHPUT. 22Mbps 20MHz WIDE OFDM CHANNEL MASK 5745 MHz 5785 MHz 5825 MHz COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 12. BONDED CHANNEL TECHNOLOGY USES TWICE THE CHANNEL WIDTH AS STANDARD 802.11a/g CHANNELS (WHICH ARE TYPICALLY 20MHz WIDE), BUT GIVES TWICE THE THROUGHPUT OF THE STANDARD CHANNELS. A LINK USING BONDED CHANNEL TECHNOLOGY SUPPORTS APPROXIMATELY 44Mbps OF THROUGHPUT. 40MHz WIDE 44Mbps OFDM CHANNEL MASK 5745 MHz 5785 MHz 5825 MHz COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 13. MULTIPLE DOWNLINK RADIOS WILL GIVE A MESH MULTIPLE 22Mbps SOURCES OF BANDWIDTH. EACH DOWNLINK RADIO ON A ROOT NODE WILL PROVIDE A SEPARATE CHANNEL FOR RELAY NODES TO ASSOCIATE TO. WITH THE APPROPRIATE USE OF SECTOR ANTENNAS, THE MULTIPLE SOURCES OF BANDWIDTH CAN BE DISTRIBUTED ACROSS THE MESH. DOWNLINK Chn. B ANTENNA ( 22Mbps ) DOWNLINK Chn. A ANTENNA ( 22Mbps ) SIGNAL SPREAD ROOT DOWNLINK NODE ANTENNA Chn. B DOWNLINK ( 22Mbps ) ANTENNA DOWNLINK DOWNLINK ANTENNA ANTENNA ROOT SIGNAL SIGNAL NODE SPREAD SPREAD COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 14. THE DIAGRAM BELOW ILLUSTRATES HOW DIFFERENT GROUPS OF RELAY NODES GET THEIR OWN 22Mbps SOURCE OF BANDWIDTH FROM EACH OF THE ROOT NODE’S DOWNLINKS. ANTENNA SPREADS ARE SELECTED BASED ON THE LOCAL DISTRIBUTION OF RELAY NODES. THREE DOWNLINK RADIOS ARE USED IN THIS EXAMPLE. ROOT NODE RELAY NODE DOWNLINK ANTENNA SIGNAL SPREADS CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 15. WHILE OTHER VENDORS OFFER ONLY A SINGLE DOWNLINK RADIO ON THE ROOT NODE, WHICH CAN SEVERELY LIMIT THE NUMBER OF CAMERAS THAT CAN BE INSTALLED ON A NETWORK, THE ABILITY OF THE MD4000 TO UTILIZE MULTIPLE DOWNLINK RADIOS ALLOWS FOR A SUBSTANTIAL INCREASE IN THE NUMBER OF NETWORK CAMERAS. ROOT NODE RELAY NODE DOWNLINK ANTENNA SIGNAL SPREADS CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 16. THE BENEFIT OF MULTIPLE DOWNLINK RADIOS CAN ALSO BE APPLIED TO RELAY NODES. A RELAY NODE’S UPLINK THAT HAS A BONDED-CHANNEL CONNECTION (44Mbps) CAN PROVIDE SEPARATE DOWNLINK CONNECTIONS OF 22Mbps TO DIFFERENT GEOGRAPHICAL LOCATIONS. THIS IS ESPECIALLY HELPFUL WHEN THERE ARE NODE CLUSTERS AND SURVEILLANCE AREAS ARE THAT ARE NON- LINE-OF-SITE FROM THE ROOT NODE. ROOT NODE (downlink antenna) s bp 44 MOUNTAIN M M bp 22 s 22Mbps RELAY NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 17. THE BENEFIT OF MULTIPLE DOWNLINK RADIOS CAN ALSO BE APPLIED TO RELAY NODES. A RELAY NODE’S UPLINK THAT HAS A BONDED-CHANNEL CONNECTION (44Mbps) CAN PROVIDE SEPARATE DOWNLINK CONNECTIONS OF 22Mbps TO DIFFERENT GEOGRAPHICAL LOCATIONS. THIS IS ESPECIALLY HELPFUL WHEN THERE ARE NODE CLUSTERS AND SURVEILLANCE AREAS ARE THAT ARE NON- LINE-OF-SITE FROM THE ROOT NODE. ROOT MOUNTAIN NODE node Cluster s bp 44 MOUNTAIN M M bp 22 s node RELAY 22Mbps cluster MOUNTAIN NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 18. THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. ROOT NODE COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 19. THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. IP CAMERA COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS
  • 20. THE COMBINATION OF THE THIRD GENERATION BACKHAUL AND SEAMLESS NODE-TO-NODE SWITCHING MAKE THE MD4000 MOBILE NODES IDEAL FOR MOBILE VIDEO APPLICATIONS. THE MD4000 HAS BEEN TESTED AT 65Mph WHILE SENDING GLITCH-FREE VIDEO OVER 5 HOPS. DURING THIS TEST, AN AVERAGE OF 10Mbps OF THROUGHPUT WAS MEASURED. THE CONNECTIVITY OF THE MOBILE NODE WAS SET AT 24Mbps IN ORDER TO UTILIZE THE ROBUST 16-QAM MODULATION SCHEME. Throughput 21.00 18.00 15.00 12.00 (Mbps) 9.00 6.00 3.00 0.00 00:00 00:50 01:40 02:30 03:20 04:10 05:00 05:50 06:40 07:50 Elapsed Time (mm:ss) COPYRIGHT 2008 MESHDYNAMICS, INC. ALL RIGHTS RESERVED. DISCLOSURES PROTECTED BY MULTIPLE PATENTS