Did it occur to anyone that every DISH subscriber is a potential PICO CELL !?!?
Yep, that SAT signal and all of it's content as a RECEIVER can also be a LiveU TRANSMITTER !!!
Add the likes of an ALu Light Radio and you have a customer premisis Powered On PTP Roof Top Mounted Pico Cell. Much like what LiveU is doing.
Offer FREE DISH subscription to One customer in EVERY 1 Mile radius and you have massive coverage on the cheap and the MOTO MOBILITY guys can do this with Eyes closed and arms behind their backs! ( Or Google buys LiveU )
Right now Google is investigating the COVERAGE and PENETRATION dynamics of 2.6 GHz - hence - towers talking to INSIDE the FIBER building.
(Take a trip down to Mountain View and find out for yourself). I saw some Apple guys signal sniffing.
Apple and Google live in the midst of the Clearwire WiMAX (TD-LTE) Silicon Valley sandbox.
Credit Suisse still owns the Google shares they purchased at $2.26. Will they put the deal together for Google? Likely!
We own the ONLY Nationwide TD-LTE Data Fat Pipe and we are worth $8+/sh.
Is LiveU what Google is looking at over Clearwire Data Pipe.........
The LiveU solution bonds up to 14 cellular (3G/4G - LTE/WiMAX) modems over multiple carriers, as well as multiple LAN and even BGAN satellite connections. This creates a reliable, broadband video uplink pipe over multiple narrow-band pipes. Using any camera, the fully-integrated self-powered compact unit provides video resolution ranging from CIF through D1 (SD) and up to 1080i HD. The bonded 3G/4G solution aggregates all data connections simultaneously to achieve high bandwidth and smooth transmission, even as bandwidth and signal levels change across the different connections.
High Quality Video TransmissionLiveU has developed several advanced proprietary algorithms that enable resilient high quality video transmission over the ever-fluctuating multiple cellular networks.
* Error handling mechanisms:
In wireless and cellular environments, packet loss and errors are common inherent phenomena. LiveU has been developing proprietary error-handling mechanisms specifically adapted to these phenomena and to the unique paradigm of aggregation of multiple links. Adaptive and predictive Forward Error Correction (FEC), Error Concealment and Error Recovery mechanisms at the video application level complement each other and are employed as needed for each specific operation conditions.
LiveU provides sub-second latency for interviews and highly resilient profiles for live transmission from fast-moving vehicles (cars, trains, motorcycles, boats, and even helicopters when local law permits). We also offer high-speed File Transfer mode (FTP) over the aggregated bandwidth. As part of its full service option, LiveU provides roaming support for cost-effective global coverage.
Industry-Leading TechnologiesLiveU mobile video transmission solutions include a range of unique technologies, including:
Proprietary antenna technology, extending the cellular networks coverage and converting cellular Dead Zones to Live Zones. The LU60's built-in Proprietary Antenna Technology uses highly advanced RF technology for exceptionally resilient transmission, compared to standard off-the-shelf aircards. From bustling urban environments to underground tunnels, high-rise office buildings and crowded public events, the LiveU LU60 overcomes cellular multipath fading and poor cellular coverage, taking "anywhere" to a whole new level.
Incorporating 4G LTE (and previously WiMAX) modems working in commercial networks.
Advanced roaming solution, allowing easy and cost-effective worldwide roaming with dual SIM cards per modem.
LU Xtender (LiveU)
External Antenna for Extra-Strong Resiliency in Extreme Scenarios (or Google's MOTO group builds to support their acquisition of Clearwire)
Place this on a roof-top and aggregate (support) ALL carriers in the neighborhood and shift the HEAVY DATA users to Clearwire Spectrum!!
You gotta know Google is on-to this !!!!!!! and CLWR spectrum makes YOU a King !!!!!!
700 MHz - 900 MHz & 1.7GHz - 2.6GHz
700 MHz - 900 MHz & 1.7GHz - 2.6GHz
LiveU's new external antenna, the LiveU Xtender, increases network reception, providing additional resiliency for live video transmission in extreme scenarios, such as heavily crowded locations. The LiveU Xtender adds six additional network connections to LiveU's LU70 professional-grade backpack and covers all current 3G/4G LTE cellular network bands worldwide. The combined LU70 and Xtender solution supports up to 13 network connections.
Remotely-Located or Vehicle-Mounted
The LiveU Xtender can be remotely-located or vehicle-mounted, creating a revolutionary mobile newsgathering (MNG) vehicle with satellite-like reliabilty, faster set-up time and lower overheads than traditional SNG trucks.
Platform Flexibility: LiveU's products can be used for either TV or web/mobile transmission. For more information about LiveU's cellular-based uplink architecture, please visit our Technology page.
Up to 6 4G LTE / 3G cellular, Wi-Fi MIMO 2.4/5.8G, Ethernet
10.6 x 13.9 x 10.2 inches
DC In/DC Out/Ethernet/USB Type A (host)/USB Type B (gadget)/RF
AC 100-240V/DC 12-19V
Anton Bauer / IDX
Optimal Operation mode (length of USB cable from the device)
16 ft. (98 ft. with active USB extenders)
Penetration of higher frequencies (2.6 GHz) is no longer an issue with the
advent of compact RF signal boosters being deployed (all across India at least)
inside of malls, hotels, homes, theaters, airports etc. The external signal is
received by the booster and amplified by making it bounce across the internal
wiring of these structures resulting in a strong amplitude (intensity)
transmission to the receiver in your mobile device. And the resultant speed
because of the hi-freq. 2.6 GHz tdd-lte is astronomical compared to lower 700
MHz bands etc. Moreover, "Reliability and Maintainability" is a complex subject
with different probability distributions such as the nonlinear Weibull etc. used
in calculating the MTBF (mean time before failure). In the simple matter of wave
propagation it is irrelevant when the strength (amplitude) of the signal can be
maintained through the last mile, and interference (penetration) is not an issue
nowadays with the advent of such compact hi-coverage RF signal boosters. Moreover, Signal intensity (or power is proportional to signal amplitude) is different from
speed which is directly proportional to the frequency. So, for a constant
amplitude between 2 signals, say, dish at 1GHz and clear at 2.6 GHz - the clear
signal would have a greater speed. This would be true even if the amplitude of
the dish signal were higher. The FDD-LTE technology is notorious when it comes to spectrum hogging. For every FDD LTE setup it takes 3 spectrums (1 spectrum upload, 1 spectrum download, and 1 spectrum just to keep them apart) while TDD shares everything within its single spectrum. I think the industries have now come to their senses that FDD is just too wasteful. Since CLWR practically owns the spectrum of “TDD Global 2.5 GHz Standard” in the US market I would expect every smartphone/tablet will include 2.5GHz band as part of its standard equipment, meaning worldwide roaming will now be possible. This makes CLWR spectrum even more valuable assets. CLWR currently have over 9000 spectrums that worth some have estimated at upward of $40B-$50B, and out of which 71% is owned and 29% is leased.
GOOG would do well in taking out the 49% remaining stake which will fairly satisfy the minority institutionals (crest, kellet, glenview, taran etc.) + retail unaffiliated.