Mimosa Networks provides wireless networking solutions as an alternative to laying fibre optic cables. Their fixed wireless technology uses directional antennas and advanced signal processing to deliver fibre-like speeds wirelessly over distances of up to 1 km. This allows internet providers to cost-effectively connect more homes and businesses to high-speed networks without having to trench for fibre. Mimosa has deployed commercial networks delivering speeds up to 1 Gbps to thousands of customers. Their solutions use technologies like massive MIMO and adaptive beamforming to maximize capacity and coverage of 5G and emerging WiFi standards.
9. Mobile LTE Solutions Won’t Work
4G macro cell spectrum
near capacity in large
markets
5G based mmWave
limited in coverage
and link stability
10. Alphabet Looks to Wirelessly
Connect Homes to Internet
Google parent says [fixed wireless]
technology is less expensive
than laying cables
“ “
June 8, 2016
11. 5G Now Means Fixed Wireless
Connecting consumers and businesses to a fiber
network is expensive, and that it's possible to
reduce that cost by getting a fiber connection
within 1,000 meters of a building and then
connecting that building to the fiber network
wirelessly via a 5G router on the outside of the
building.
“Half of our cost to establish high-speed data, whether that's consumer or business, is
inside the four walls of the business. Once you go wireless, you don't have to run
coax, you don't have to do any of those high-labor-intensive activities. So you light up
service overnight.” - Lowell McAdam, CEO
18. GeoCapacity for High Population Areas
500m
Coverage cells
>400 hh/km2
markets
GPS Sync
Network Wide
Channel Reuse
250 Mbps+
Client
Speeds
Backhaul or
Fibre fed
19. The Business of MicroPoPs
ROI
Capex € 200-300 / household
250 Mbps+ uncapped services
Payback within 6 months @ €50/month
Payback within 12 months @ €25/month
Very fast deploy speed, viral neighborhood
sales and focused area installations
Demographics
City areas 400-1000 households / km2
Non-upgraded ADSL markets
Fibre more than €1200 / household
LTE not an option in high-density
market due to over-capacity towers
21. Directional MIMO Approach
Quad Directional
Smart Sector
Only TX in necessary
client direction
Isolates RX noise to
listening direction
22. Example Using 5 GHz DFS Band
300m
1,000m
600m
80MHz
RSSI: -44 dBm
SNR: 31 dB
MCS: 9
PHY: 866 mbps80MHz
RSSI: -54 dBm
SNR: 25 dB
MCS: 6
PHY: 585 mbps
80MHz
RSSI: -58 dBm
SNR: 21 dB
MCS: 5
PHY: 520 mbps
23. ¡ Wi-Fi radios have very good receive sensitivity
¡ kTB + NF = k * 300 K * 20 MHz + 3 dB = -98 dBm
¡ aka: thermal noise + radio noise = receiver sensitivity
¡ Packet detection based on energy threshold + auto-correlation
¡ Constantly trying to decode packet with faint energy in the air
¡ Dominant source of packet error rate
¡ Short range fixed access Rx signals are very stable, high SNR
¡ Intentionally reduce receive sensitivity (non-intuitive!)
¡ Real-time AGC training algorithm, per packet gain adjustment
¡ Shrinks receive footprint, avoid low power/far away interference
¡ Recover otherwise unusable spectrum, especially in high SNR
Impacts to Cell Size
24. High immunity to lower powered nearby
indoor Wi-Fi and planned self-interference
Working Above the Noise
Short range design & advanced AGC
10 dB SNR needed for service
xx
26. 0.8km
1.8 km
300 m
Example Deployment – Tucson Arizona
4 AP x 80 MHz channels
Up to 30 CPE per AP
600 Mbps AP capacity
300 Mbps client burstable
25 Mbps client sustained (10:1)
30% “take rate” business model
600 m
1-2 SD (480p)
2-5 HD (720p)
5-10 HDX (1080p)
10-25 UHD (4K)
MB Resolution
Streaming Requirements
27. ¡ Delivering business and
residential broadband in
the Chicago suburbs
¡ Offering services
competitive with
incumbent cable services
Private ISP High Density Fixed Wireless
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