breezemax extreme™
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Proprietary Information.
3
Introducing BreezeMAX Extreme Family
Extreme 5000 First WiMAX 16e in 5 GHz
Extreme 3600 WiMAX 16e for 3.6-3.8 GHz
Proprietary Information.
4
Introducing BreezeMAX Extreme
Awards
2010, Internet Telephony: 2010 WiMAX Distinction
2010, ISC West: Best Public Safety Solutions
2009, 4GWE: Product of the Year
Proprietary Information.
6
Answering Customer Needs
Wireless Point-to-Multipoint Solution
Provide premium WiMAX™ 16e broadband access and voice services
Complement existing networks
Extend telecommunications and broadband services to smaller satellite townships and
residents
Quickly satisfy demand for high capacity
Back-up infrastructure in emergency situations
Access
Public Safety
Fleet Management
Business Applications
Utilities
Remote Office
Meter Reading
Mining
Emergency
Services
Municipality
Applications
Proprietary Information.
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BreezeMAX Extreme:
A Network That Works for You (1)
• Quality of Service enabling additional services
• Capacity: designed for high occupancy
• Scheduled, multiple access protocol
• Ease-of-use: centralized provisioning and management Access
Diverse services and deployment scenarios:
• Combined Eth.CS and IP.CS services
• QoS with diverse classifiers
Security: AES encryption, keys generated per session by AAA
Enhanced ROI: carrier of carrier
Centralized provisioning: nomadicity
Access anywhere (potential ROI - roaming)
Improved efficiency, reach, and service
Business
Remote Office
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• Leveraging 16e QoS for video reliability
• New TDD ratio of 35:65 for intensive uplink applications
• Multicast, broadcast & unicast
• Enhanced performance
• Reliable video streaming
• Optimized video delivery
16e separates between access and service • Ability to lease part of access network to local vendors
QoS for diverse municipality services • Inter-building connectivity, remote office, video
surveillance, first responders, fleet management
Vehicular mobility powered by 16e
5 & 3.6GHz suits vehicular mobility
Vehicular subscriber
Municipality
Mobility
Video / Public Safety
BreezeMAX Extreme:
A Network That Works for You (2)
Fleet Mgmt.
Proprietary Information.
10
Carrier-class WiMAX 16e is now a reality for 5 GHz license-exempt market
and in 3.6-3.8GHz for best of class broadband wireless solution
All Outdoor All-in-one, all outdoor solution for profitable up & go services
WiMAX 16e Quality-of-Service For enhanced and swift delivery of triple-play services
Interference Resistant & Advanced Air Protocol techniques Powerful interference mitigation techniques overcoming obstacles
Broadband Anywhere Efficient delivery of broadband applications to any environment
BreezeMAX Extreme Meets the Challenge
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BreezeMAX Extreme Meets Customer Needs
High-capacity driven deployments • Urban
• Video
Coverage-driven deployments with lower capacity requirements
• Rural
Capacity-driven deployments • Suburban
• Rural
MIMO Single Sector 2X2 SISO Single Sector 1X1
SISO Dual Sector 1X1
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Distribution in Mind: Making it All-in-One B
uil
t In
Fu
nc
tio
na
lity
In
clu
de
d In
Th
e B
ox
GPS receiver Integrated dual-slant antenna
Mounting, tilt
accessory included Accessories Connectors Kit
AAA
Complete 16e dual-SOC base station 16e ASN Gateway Local Provisioning Capability
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BreezeMAX Extreme Specification (2)
Extreme 5000 Extreme 3600
Networking
Max # SUs 250 SUs per BTS
DHCP Transparent, Relay (opt. 82), Server
Authentication Local Provisioning (no AAA), Centralized (AAA, RADIUS)
ASN-GW Integrated distributed ASN, or External ASN (R6)
Eth. CS
IP CS
QoS BE, nRT, RT, UGS, eRT
Security EAP-TTLS, PKMv2, MSCHAP Authentication,
WiMAX 16e AES128 encryption
Power
Consumption Up to 57W Up to 91W
Feed – PoE
Feed – 48V DC
Backhaul Eth. / Option for PoE for backhaul CPE
GPS Integrated receiver in BTS / GPS chaining
Dimensions 51 x 28 x 15 cm, 11 kg (mounting: + 5 kg)
Proprietary Information.
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BreezeMAX Extreme Specification (3)
Extreme 5000 Extreme 3600
Interoperability
&
Eco-system
PHY WiMAX 16e wave2 compliant
CPE
PRO 5000 (A)
PRO 5000 (E)
PRO 3000 (A)
PRO 1000 (A)
PRO 1000 (E)
IOT - USB Dongle
IOT - SI
ASN-GW
Integrated ASN-GW (distributed architecture) – Free of charge
4Motion Mini Centralized ASN
AAA
FreeRadius
Radiator
Alepo
BridgeWater
Aradial
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The Power of Enhanced WiMAX 16e Radio
Feature/Item Benefit
Capacity
MIMO B Twice the capacity for CPEs with good SNR conditions
OFDMA Multiple Access OFDM, increasing uplink efficiency and utilization
CTC Increased transmission reliability
Coverage
and
Interference Mitigation
MIMO A
Increased coverage & interference robustness due to redundant and parallel paths
Reduced re-transmission on cell edge with multiple path
OFDMA (sub-channelization)
Successfully connects Subscriber Units (SUs) with relatively poor link conditions
Increases maximum transmit power of SU by 3, 6, 9 or 12 dBm
Better bandwidth utilization enabling several SUs to simultaneously share
bandwidth
MRRC Leveragto increase reception reliabilitye Receive Advanced Antenna
Technique
CTC High sensitivity and improved link budget
Hybrid ARQ Additional 5dB in cell budget
Coding with repetitions Increased transmission reliability with MAP repetition
QoS UGS/ERT/RT/NRT/BE
Highly efficient bandwidth allocation
ERT enables the allocation of resources to voice calls only when voice is active which is significantly better than UGS that constantly allocates resources even when there is no demand
Centrally controlled
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New TDD ratio’s for Different Applications
Increased operator benefits with optimized downlink/uplink ratio
• 35:65 TDD for video surveillance and high-capacity uplink applications
• 60:40 TDD (default) for general access and common deployment
• 75:25 TDD for rich media downlink application
Uplink Downlink
60
40 As supported today –
Common access deployment (default)
35
65 For uplink-oriented
applications
Uplink Downlink
75
Uplink Downlink
25 For intense downlink oriented applications
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WiMAX 16e QoS Enables Triple Play
Service Delivery
Voice Internet
Gaming
@
@
Video
@
@
Better bandwidth utilization for an
improved business case
Application Types
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Video transmission to multiple clients reduces video traffic
• Allows for more cameras and subscribers on the wireless network
WiMAX 16e Multicast for Enhanced
Video Surveillance
REC
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NMS
BreezeMAX Extreme Building Blocks
• Works out of the box
• Integrated ASN-GW (can also work with external ASN)
• Integrated GPS receiver and antenna on BTS
• Local provisioning (with no AAA)
• DHCP server option on BTS (as well as opt.82 relay and trans.)
• Direct management (base station: Telnet, CPE: Web)
Base Station and CPE
• Authentication, Accounting, Authorization
• Centralized provisioning
• Encryption
• Interoperability with Radiator, FreeRadius, Alepo and Aradial
Optional AAA Server
• AlvariStar: base station management
• StarACS: TR069 based for CPE management
• AlvariCRAFT: installation assistance tool
Management
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BreezeMAX Extreme Deployment Flexibility
• PoE (Extreme 5000 only)
• 48V DC Direct
• Eth.
• Extreme may act as PoE for backhaul CPE
• Receiver integrated in BTS
• 2 antenna kits available
• GPS chaining supported
• Integrated (dual-slant)
• External Antenna
Power Feeding
Backhaul
GPS
Antenna
GPS ANT
DATA DC IN/OUT
WLNK
GPS
ALM
GPS IN GPS OUT 48V
BAND
ETH
1PPS PWR
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Networking Flexibility
DHCP
Server
Local
Provisioning
DHCP
Server
AAA
Server
Centralized
Provisioning Integrated ASN-GW
DHCP
Server
ASN
Gateway
AAA
Server
Centralized
Provisioning External ASN-GW
Private Fixed
Networks
Wireless Service
Providers
Mobile/Mixed-service
Networks
Mixed Eth.CS
and IP.CS
Services
Optional
BTS can act as
DHCP Server
DHCP relay (opt. 82)
DHCP trans.
IOT with:
FreeRADIUS
Radiator
Aradial
Alepo
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Maximizing Performance - controlled backhaul
• Extreme support different forwarding rules
• Per service (forwarding rule) one can define if traffic would go through
backhaul or be routed locally
• Extreme also supports multicast
• Defined in the service interface, single transmission over the air!
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Customer Type Internet Service Provider
Country / Region Australia
URL http://www.adam.com.au
Application Broadband services for residential and business
customers
Adam Internet, Australia
• Rated within top-ten ISPs in Australia, serving over 80,000 DSL subscribers • Deploying WiMAX 16e in 5 GHz spectrum • Part of the Australian Government’s Broadband Guarantee Program (BGP) • Targeting 55,000 underserved customers metropolitan Adelaide (across 5000
square km)
“…WiMAX offers a high-capacity network that is quick to deploy and
very economical to operate. The excellent performance results of
BreezeMAX Extreme 5000 coupled with its compact flexible
outdoor design configuration enables us to significantly reduce
our upfront network investment and accelerate our return on
investment..”
About Adam Internet
Greg Hick’s, Chairman of Adam Internet
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BreezeMAX Extreme Advantage
Cutting-edge Technology
Future Superior
Performance
Interference Mitigation
Perform Instead of Stall
Better QoS and User Experience
Channel Friendly
Easy to Order
Flexible Configuration
Inventory Mgmt, Rapid Deployment
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=
= = =
Enhanced
16e QoS
More Services Higher Quality
Fast ROI
Mainstream Standard
Ecosystem, IOT Economy-of-Scale
Future Proof, Business Case
All-in-One
All Outdoor
Easy, Compact Deployment
Potentially Reduced CAPEX and OPEX
WiMAX 16e Strength Do More with Less More CPEs/Sector
More Services/Sector More Capacity and Range
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MIMO Single Sector Model
• Superior performance utilizing 2nd order diversity
• Maximal sector capacity (MIMO B)
• Maximal sector coverage (MIMO A)
• Supports 5, 10, 20(10+10) MHz per sector
• Max UDP Capacity:
• MIMO A: 25 Mbps (10 MHz), 50 Mbps (20 MHz)
• MIMO B: 42 Mbps (10 MHz), 80 Mbps (20 MHz)
• Integrated or external antenna
BreezeMAX
Extreme
Urban
• High-capacity driven deployments
• Urban
• Video
• NLOS conditions
MIMO Single Sector 2x2
Best Fit for
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SISO Single Sector Model
• Single sector
• Supports 5, 10, 20(10+10) MHz
per sector
• Integrated or external antenna
• Max UDP sector capacity
• 5 MHz: 11 Mbps
• 10 MHz: 24 Mbps
• 20 MHz: 45 Mbps
BreezeMAX
Extreme
Suburban/Rural
• Capacity-driven deployments
• Suburban
• Rural
SISO Single Sector 1x1
Best Fit for
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31
SISO Dual Sector Model
• Dual sector served by a single unit
• Full functional sectors, enabling reduced CAPEX
and OPEX
• Up to 10 MHz per sector
• Max UDP sector capacity
• 5 MHz: 11 Mbps
• 10 MHz: 24 Mbps
• External antenna only
• Coverage-driven deployments with lower capacity requirements
• Rural
BreezeMAX
Extreme
Rural
SISO Dual Sector 1x1
Best Fit for
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MIMO A
• Base station transmits same data over two
transmission paths
• Transmissions are coded in time and space
• 2nd order diversity is featured in downlink
• Increased coverage due to redundant and parallel paths
• Less re-transmission on cell edge with multiple path
MIMO Matrix A
Tx (a) Sym0 -Sym1*
Tx (b) Sym1 Sym0*
Data Stream A
Data Stream A
Space Time Block Coding (STBC)
MIMO A (Diversity)
Benefits
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MIMO B
• Base station transmits two different data
streams over same channel
• Same number of sub-carriers, twice as many
QAM symbols to MAP interleaving
• Increased capacity due to reuse of bandwidth channel
MIMO Matrix B
Tx (a) Sym0 Sym2
Tx (b) Sym1 Sym3
Data Stream A
Spatial Multiplexing
Data Stream B
MIMO B (Capacity)
Benefits
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MIMO Matrix A 2x2
(Rx Diversity )
MIMO Matrix B 2x2
MIMO A/B
Coverage
• MIMO A or MIMO B utilization
• Maximizing coverage or capacity per deployment type
• Adaptive MIMO switching
• Changes rapidly between Matrix B and Matrix A
• Maximizing capacity while maintaining connection
Capacity
Ref: SISO
1x1
Extreme Performance with MIMO A/B Switching
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35
Hybrid Automatic Repeat reQuest (HARQ)
• Allows an extensive use of Matrix B to maximize capacity
• Improves performance under interference / fading changes
• Reliable data transmission at PHY level
combined with forward error correction
• Significantly improves each burst detection
probability
• Like ARQ, reduces error rate by
retransmitting error bursts
• Unlike ARQ, stores and combines error
bursts rather than discarding them
Benefits
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36
Maximum Receive Ratio Combining (MRRC)
• Combining signals from antennas at each
frequency
• Enables improved overall gain, especially in
multipath environments
• Increases uplink gain
• Reduces imbalance between uplink
and downlink power budgets
• Enhanced system gain
• Increased sector coverage and capacity
• Improved business case
Benefits
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37
802.16e
512
5MHz
1024
10MHz
2048
20MHz
64*
OFDM (802.11 /
proprietary)
256*
802.16d
* Fixed for any channel BW
• Stronger air protocol
• Sub channelization
• Multiple access
f
16e
OFDM Technologies: Differences
FFT Size
Technology Generation
802.16e is scalable
OFDMA
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BW
(F
requ
ency
) B
W (
Fre
quen
cy)
Time
Time
OFDMA Improves Service
Downlink Uplink
Frame
OF
DM
O
FD
MA
MA
P
MA
P
Service is not available
for poor link CPEs
Poor link CPEs are being served with lower bit rate
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BW
(F
requ
ency
) B
W (
Fre
quen
cy)
Time
Time
OFDMA Improves Service
Downlink Uplink
Frame
OF
DM
O
FD
MA
MA
P
MA
P
Service is not available
for poor link CPEs
Poor link CPEs are being served with lower bit rate
Improvement per CPE:
• Concentrating CPE energy on sub-channel
• Better uplink SNR better rate
Improvement per sector:
• Multiple access on same time slot
• Better ability to meet demand
• Better utilization of the air
16e Benefits
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ERT
eRT QoS: VoIP Support
• In downlink (DL), VoIP receives high priority over other services
• UGS and eRT provide periodic uplink (UL) allocations
• According to vocoder packetization time
• eRT incorporates signaling techniques to minimize UL resource
consumption during silence
time
Talk spurt
Silence
UGS
packetization
time
ERT
UGS UGS UGS
ERT
UGS
In eRT CPE indicates start/stop of traffic
UL
allocations
More concurrent calls with eRT
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