A presentation I gave at IWCE 2013 entitled Ways Wireless is Changing the World. Covering voice, data, and wireless communications from pagers to cell phones and from newspapers to iPad.
7. Not just talking
– Talking
– Texting
– Browsing
– Working
– Video Conferencing
8.
9.
10. The impact.
Went from a receive only model to a
receive, respond, communicate,
interact, learn, locate, model.
11. How this changes MY world
•
•
•
•
•
•
I don’t have to find a pay phone
I can communicate more effectively
I don’t have to be in an office
I don’t have to be in a library
Music stores, movie theaters, arcades
Newspapers, magazines, books
12.
13. Wireless Communications make
this possible. Wireless providers are
the key enabler.
Wireless providers are leveraging
their “pipes” in new ways.
14. 21% of mobile users spend
more on their monthly
communications than they do
on groceries.
Source: http://www.couponcabin.com/blog/1-in-5-mobile-phone-owners-pay-more-per-month-for-phone-service-than-groceries/
32. Medical Body Area Networks (MBAN)
• IEEE 802.15.6
– May 4th, 2012: http://www.fcc.gov/document/fcc-dedicates-spectrum-enabling-medicalbody-area-networks
To me, this is what really started the trend in bi-directional communication. The leap from pager to mobile device was the defining factor.Jesse Schell: Gamepocolaypse
Samsung Galaxy 4sNow it’s not just us “talking” and using data. Our devices are now sending data as well
$49 per month. 3 trios, you’re making money. Now you get paid and you get free mobile service.
From phone lines and copper cabling, to higher throughput using wireless technology like LTE
OpenGarden – Free application / appAllows you to use your data on all your devices and bonds them togetherKarma - $79 & $14 for 1GB of data. The more you share the more FREE data you earn.When someone connects, you and they receive a free 100 MB worth of data. Up to 8 connections simultaneously.Runs on Sprint / ClearwireFreedomPop – 500 MB free per month. $.02 per MB after.
Local networks802.11ac Hello 5 GHz! 80 / 160 MHz channel802.11ad Hello 60 GHz! Call me WiGig! 7 Gbps!Bye Bye Cables!802.11ahWide area networksLTE-ATVWSMicrowave1024QAMStill Early..Sub 1-GHzUltra Low Power“Internet of Things”Nov. 2014 – Working group approval
“You’re sitting in a chair. IN THE SKY.” “Everybody on every flight should be saying OH MY GOD! WE’RE FLYING!
Local networks802.11ac Hello 5 GHz! 80 / 160 MHz channel802.11ad Hello 60 GHz! Call me WiGig! 7 Gbps!Bye Bye Cables!802.11ahWide area networksLTE-ATVWSMicrowave1024QAMStill Early..Sub 1-GHzUltra Low Power“Internet of Things”Nov. 2014 – Working group approval
The FCC proposal was to fill in the 120MHz gap, as well as add 75MHz to the upper end of the band, extending it from 5.85Ghz to 5.925Ghz. However that upper 75MHz interferes with “smart car” connected vehicle program.It would allow for a 40% increase in the number of 80MHz channels available to broadcast on, and add a third available 160MHz channel (a 160MHz channel is made up of two 80MHz channels, its not cumulative). Currently, the specification and frequency allotment for the US only allows for five 80MHz channels and two 160MHz channels as shown below. Adding in the band between 5.35-5.47GHz would allow a contiguous span from 5.15-5.73Ghz (580MHz). The 580MHz usable span would allow for seven 80MHz channels. Those seven 80MHz channels could be paired into three 160MHz channels for even faster speed under an optional part of the 802.11ac specification.The addition of the 75MHz to the upper end is more questionable, due to the conflicts (DSRC)
802.11ad Hello 60 GHz! Call me WiGig! 7 Gbps!Bye Bye Cables!802.11ahWide area networksLTE-ATVWSMicrowave1024QAMStill Early..Sub 1-GHzUltra Low Power“Internet of Things”Nov. 2014 – Working group approval
In LTE-Advanced focus is on higher capacity:Increased peak data rate, DL 3 Gbps, UL 1.5 GbpsHigher spectral efficiency, from a maximum of 16bps/Hz in R8 to 30 bps/Hz in R10Increased number of simultaneously active subscribersImproved performance at cell edges, e.g. for DL 2x2 MIMO at least 2.40 bps/Hz/cell.The main new functionalities introduced in LTE-Advanced are Carrier Aggregation (CA), enhanced use of multi-antenna techniques and support for Relay Nodes (RN).LTE vs. LTE-Advanced Key Performance Indicators Rel. 8 LTEPeak data rateDownlink – 300 MbpsUplink – 75 MbpsRel. 10 LTE-AdvancedDownlink – 1 GbpsUplink – 500 MbpsPeak Spectrum EfficiencyDownlink – 15 [bps/Hz]Uplink – 3.75 [bps/Hz]Rel. 10 LTE-AdvancedDownlink – 30 [bps/Hz]Uplink – 15 [bps/Hz]Scalable Bandwidth SupportUp to 20 MHzRel. 10 LTE-AdvancedUp to 20 MHz, with bandaggregation up to 100 MHzCapacity200 active users per cell in 5 MHzRel. 10 LTE-Advanced3 times higher than LTE
40 MHz of spectrum at 2360-2400 MHz 2360-2390 MHz band will be subject to registration with an MBAN coordinator Use of this 30 megahertz band will be restricted to indoor operation at health care facilities. MBAN devices that operate in the 2390-2400 MHz band will not require registration and coordination, and may be used in any location – including in-home residential settings. New Rules Make U.S. First in the World to Allocate Spectrum for Medical Area Body Networks (MBANs) Washington, D.C.—The Federal Communications Commission today advanced its wireless health care agenda by adopting rules that will enable Medical Body Area Networks (MBANs), low-power wideband networks consisting of multiple body-worn sensors that transmit a variety of patient data to a control device. MBAN devices free patients from cumbersome cables that tether them to their hospital bed. MBANs provide a cost effective way to monitor every patient in a healthcare institution, so clinicians can provide real-time and accurate data, allowing them to intervene and save lives.
Not just recording data about your body, using Glass to record your life.
2010 World Cup, England v Germany, Frank Lampard. Ball bounced nearly 1 foot behind the chalk.