the path to 1000x - dyspan2012.ieee-dyspan.org · mobile data traffic projected to grow from...
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The Path to 1000x IEEE DySPAN 2012
Rajesh Pankaj, Sr. VP, Engineering
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Fortune 500 Company
25+ years of driving the evolution of wireless
Making wireless more personal, affordable and accessible to people everywhere
World’s largest fabless semiconductor company, #1 in wireless
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A Technology Enabler for the Entire Mobile Value Chain Qualcomm’s Unique Business Model
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Qualcomm Research Organization
Santa Clara, CA
Bridgewater, NJ
Vienna, Austria
Beijing, China
Seoul, S. Korea
San Diego, CA
Nuremberg, Germany
Bangalore, India
Hyderabad, India Raleigh, NC
Cambridge, UK
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The Biggest Platform in the History of Mankind Approximately 1.6B New 3G Connections to be Added by 2016
3G Connections Now
3G Connections by 2016
Wireless Connections Worldwide Now
Source: Wireless Intelligence (Jul. ’12)
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Mobile Data Traffic Growth
Mobile data traffic projected to grow
from 2010–2011*
Preparing for
Data Traffic Growth
*Global growth, some regions grew more/less
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Evolve 3G/4G/Wi-Fi
HetNets Interference Mgmt/SON
Intelligently Utilize Best Accesses
Higher Efficiency
Rising to Meet the 1000x Mobile Data Challenge
More Spectrum In Low and High Bands
More Small Cells Everywhere!
More Indoor Cell Majority of Usage Indoors
1000x
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Still ways to improve system capacity
We Can Reach The Air Link Limit—Shannon’s Law
Capacity ≈ n W log2(1+ ) Signal Noise
Number of Antennas
More Spectrum E.g. Mitigate
interference
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The Biggest Gain—Re-Use Shannon’s Law Everywhere!
Capacity ≈ n W log2(1+ ) Signal Noise
Number of Antennas
More Spectrum E.g. Mitigate
interference
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Extreme Densification—3G/4G+Wi-Fi Small Cells Everywhere Low cost, small size and ease of deployment
Note: Shows 3G version.
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Imagine Small Base Stations Basically Everywhere
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Open Neighborhood Small Cells Indoor Small Cells (Femto) also Providing Outdoor Coverage
High Quality – Licensed Spectrum
Low Cost Deployment
Existing Backhaul
Macro Network
Operator Controlled
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Tests Show Indoor Small Cells Providing Coverage Outside
-55 to -65*
-65 to -75
-75 to -85
-85 to -95
-95 to -105
-105 to -115
Signal Strength [dBm]
Small Cell
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1000x ~ 20% Household
Penetration
Neighborhood Small Cells is One Enabler Towards 1000x
Dense Indoor Deployment
Negligible loss in coverage and capacity at high small cell density
10Mhz for
macros @ 2GHz
Example With Higher Band:
100MHz dedicated to femtos @ 3.6GHz1
Add 10x Spectrum
500x ~ 9% Household
Penetration Median throughput gain versus
Macro only baseline Example for LTE FDD, 2x2 MIMO. Assumptions: 70% indoor users, 200 Active users per macrocell, femtos randomly dropped in households in a mix of 2 to 6 story apartments.1Small cells on dedicated spectrum used in this example, but we envision future neighborhood small cells also sharing the spectrum with macro and other small cells. 20% household penetration equals ~ 144 femtos, and 9% penetration equals ~ 65 femtos.
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At high density gains saturate because each small cell serves only one mobile
Capacity Gains with Neighborhood Small Cells
0x
200x
400x
600x
800x
1000x
1200x
1400x
1600x
1800x
2000x
0% 10% 20% 30% 40% 50%
25 UEs/ Macrocell200 UEs/ Macrocell
Note: Simulation configuration: Macro-10MHz@2GHz, Small cell: [email protected]
DL
Med
ian
Thro
ughp
ut G
ain
Small Cell Penetration
10 + 100 MHz BW
Downlink Median Throughput Gain Relative to Macro only Baseline
72 SCs 216 SCs 360 SCs
Total capacity increase 1000x for 200 users and 144 small cells (20% penetration)
Use 100MHz of bandwidth, instead of 10MHz
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More Spectrum
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More Indoor, Higher Spectrum Bands Dense Small Cell Deployment Makes Higher Bands Attractive1
Indoor Hotspot
Seamless Ubiquitous 3G / 4G
3G / 4G + Wi-Fi
3G / 4G + Wi-Fi
3G/4G in licensed where 3.4GHz-3.8GHz could be a key addition esp. for small cells. Wi-Fi in unlicensed such as 2.4GHz, 5GHz, 60GHz. 1Comparing e.g. 2GHz and 3.6GHz shows negligible loss in coverage/capacity at high density.
~300 MHz
60GHz
~3GHz
Wide Area Spectrum
Indoor/ Hotspot
Very High Bands enable Access in Every Room
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Multiple Efforts are Required to Access More Spectrum
Auctions of Cleared Spectrum
Traditional Approach
Unlicensed Approach Dedicated to Wi-Fi et al
Complementary License Model:
Authorized shared access to underutilized spectrum
Exclusive Use Shared Use
ASA—Shared Exclusive Use
Notes: Spectrum Aggregation Across bands, ASA spectrum (carrier aggregation), as well as unlicensed spectrum. Supplemental Downlink: Aggregate paired with unpaired spectrum.
Spectrum Aggregation
Supplemental Downlink
When spectrum can’t be cleared within a reasonable timeframe, or at all locations
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Authorized Shared Access(ASA) is Optimal for Small Cells
3G/4G Macro Base Station
3G/4G Macro Base Station
Regular Multi-band Device1
Incentive-Based Cooperation Model Satellite Public Safety ….
3G/4G Small Cells
Military Radar
Exclusive Use At given locations, times ensures predictability for long-term investments
Optimal for Small Cells Small cells can be closer to incumbent than macros
Protect Incumbents Binary use—either incumbent or rights holder Protection zone
Incumbent user
1No device impact due to ASA, just a regular 3G/4G device supporting global harmonized bands targeted for ASA. Carrier aggregation would be beneficial to aggregate new ASA spectrum with existing spectrum, but is not required.
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LTE Broadcast
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21 Source: Qualcomm Research
Multicast/Broadcast Improves Spectrum
Utilization
5 Users Per Site
Sharing Content
7x Throughput Gain
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22 Source: Qualcomm Research
Multicast/Broadcast Improves Spectrum
Utilization
2 Users Per Site
Sharing Content
3x Throughput Gain
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23 Source: Qualcomm Research
Multicast/Broadcast Improves Spectrum
Utilization
1 User Per Site
Sharing Content
1.7x Throughput Gain
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24 Source: Qualcomm Research
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Game Time
eMBMS
Delivery of events and popular eMedia content to unlimited audiences through efficient multicast-enabled LTE networks
Dynamically allocate broadcast bandwidth and coverage as needed Fully integrated option for LTE networks and devices Based on 3GPP Rel 9; applicable to any LTE spectrum bands
eMBMS Enables “Broadcasting” on LTE
LTE
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Cache Casting During Off-Peak Hours
LTE Broadcast Cache Casting
Pre-load content during OFF-PEAK
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Higher Efficiency
There are Multiple Ways to Reach 1000x
Different Mixes of Spectrum, Types of Small Cells, Indoor, Outdoor to Reach 1000x
More Spectrum In Low and High Bands
More Small Cells Everywhere
More Indoor Cell Majority of Usage Indoors
1000x
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