Table of Contents
- 3 A' s of WiMAX in the Enterprise
- Introduction: WiMAX, Enterprise Telecommunications and The Next Telecom
Boom
- XOHMTMThe Disruptor
- The 3 A' s of the WiMAX-enabled Enterprise
- Access
- IMS Vision
- The Impact of WiMAX on Enterprise Connectivity
- Why WiMAX as access technology?
- WiMAX is not Wi-Fi
- WiMAX Components
- WiMAX Base Stations
- Outdoor CPE
- Indoor CPE
- USB, Laptop card or similar
- Femtocells
- Relationship of WiMAX Range and Throughput for Enterprise Applications
- Link budget
- Limitations of the laptop
- MIMO
- MIMO as interference mitigating technology
- Adaptive Antenna System (AAS) as Interferenc Mitigation Technology
- Why 3G cannot compete with WiMAX
- Fixed vs. Mobile WiMAX
- Why backhaul is important
- Wireless Backhaul Considerations
- Comparisons with Fiber
- Spectrum Considerations
- Access Conclusion
- Applications
- Relationship of Connectivity and Productivity
- Applications: Generic
- T1/DS3 Substitute = converged voice + data
- Voice (telephony): the "killer app" for WiMAX
- Disaster Recovery
- Combating high telecom costs and/or Building Diversity
- Applications: Specific-Industry Verticals
- Retail
- Banking
- Healthcare
- Transportation
- Utilities
- Case study: City of Corpus Christi
- Agriculture
- Construction
- Petroleum/Energy
- Applications Conclusion
- Affordability: WiMAX in the Enterprise
- Service provider or "roll-your-own"?
- Savings on Existing Expenditures
- Strategies: A) subscribe from WiMAX service provider or
- B) Deploy own enterprise network
- Custom Built WiMAX Network for Enterprise Private Use
- Base Station and Enterprise Density
- Summary Affording WiMAX
- Conclusion and Projections
- "Landline migration" to "T1 migration"
- Clearwire: a portent of things to come
- Assumptions
Tables and Figures
- Table 1: 3G is technologically inferior to WiMAX
- Table 2: Comparisons of wireless backhaul with other options
- Table 3: Comparisons of wireless vs. fiber optic cable as backhaul solution
- Table 4: WiMAX-related spectrum
- Table 5: What enterprises buy for data solutions
- Table 6: WiMAX prioritizes VoIP packets over data packets for maximum QoS
- Table 7: What does it cost your business per hour to be down?
- Table 8: Availability figures in terms of downtime per year
- Table 9: Generic applications for enterprise WiMAX
- Table 10: Cost comparisons of WiMAX and other forms of access for
enterprise telecommunications
- Table 11: Hypothetical comparisons of legacy telco servic prices to that of
a XOHM-like WiMAX service provider
- Table 12: OPEX savings XOHM-type service vs. legacy IT
- Table 13: Hypothetical CAPEX for a WiMAX network to service 100 gas stations
- Table 14: Hypothetical OPEX for gas station chain using WiMAX as substitute
for telco services
- Table 15: Telephone companies are losing 7% of their landline subscriber
base every year
- Figure 1: WiMAX offers a broad range of enterprise IT applications at
highly competitive pricing and very flexible access
- Figure 2: The 3 elements that comprise a telecommunications network:
Access, switching and transport (backhaul)
- Figure 3: Legacy "stovepipe" infrastructure cannot easily offer more than
one service
- Figure 4: IMS allows a subscriber to access any service on any device using
any form of access
- Figure 5: Progression of networking: from mainframe to WiMAX
- Figure 6: WiMAX performance parameters make it an excellent enterprise
technology
- Figure 7: Wi-Fi serves a coffee shop or home. WiMAX serves a city
- Figure 8: WiMAX nomenclature: base station and subscriber station
- Figure 9: WiMAX base station and antenna combinations
- Figure 10: Outdoor CPE provide a superior link budget and QoS for
enterprise subscribers in office buildings
- Figure 11: Some indoor CPE incorporate Wi-Fi access points and telephone
ports
- Figure 12: USB access devices make WiMAX access more convenient to use
- Figure 13: Femtocells provide indoor coverage for WiMAX subscribers. This
is especially important for use in RF unfriendly buildings
- Figure 14v Line of sight offers better range and throughput than non line
of sight
- Figure 15: Link budget illustrated
- Figure 16: On campus WiMAX delivers a throughput of multiple megabits per
second
- Figure 17: WiMAX extends employee access to the enterprise network enabling
telecommuting, hoteling, disaster recovery and other enterprise enhancing
practices27
- Figure 18: 8x8 MIMO provides 8 times the data streams of a single antenna
system
- Figure 19: Another view of MIMO where multiple antennas enable a bypass of
interference
- Figure 20: By utilizing AAS and beam steering technologies, WiMAX mitigates
interference
- Figure 21: Backhaul supports WiMAX base stations, which in turn support
home office internet/corporate intranet access
- Figure 22: Networking and the work place: the geographic expansion of
enterprise telecommunications services
- Figure 23: WiMAX services negate the need for legacy telco T1 services
- Figure 24: WiMAX supports enterprise voice and data
- Figure 25: WiMAX as disaster recovery solution or alternative to telephone
company T1 or DSL services
- Figure 26: Destroyed telephone central office, 140 West Street, NYC, across
from World Trae Center, September 15, 2001
- Figure 27: WiMAX can enable shopping for best price on telecom services
- Figure 28: Retail enterprise-wid adotpions of WiMAX could ad more
intelligence in the enterprise making them more profitable
- Figure 29: WiMAX can replace a number of disassociated telecommunications
services providing savings to the retailer both in telecommunications and
manpower
- Figure 30: Use of WiMAX to network ATMs could save banks on networking
costs while providing portability for those machines
- Figure 31: Mobile health car vans or buses could be networked via WiMAX
- Figure 32: The networked ambulance could boost life saving efficiencies for
ambulance services
- Figure 33: WiMAX in support of the delivery industry
- Figure 34: WiMAX can be used to read a wide variety of utility meters
- Figure 35: Farmers need real time information, literally, "in the field"
- Figure 36: WiMAX may serve as a substitute for satellite based services for
farmers
- Figure 37: Agriculture implement dealer in Pomeroy, Iowa using pre-WiMAX
broadband wireless services
- Figure 38: WiMAX provides almost unlimited telecommunications services for
job sites where ever they may be
- Figure 39: Problem solving and solutions inverted pyramid
- Figure 40: Potential telecom expenses for which WiMAX is a substitute and
potentially reduces or eliminates some expenses
- Figure 41: An oil company can save on telecommunications by deploying an
in-house WiMAX network
- Figure 42: Technology adoption curve
- Figure 43: WiMAX as a substitute for telco landline, T1, DS3 services is an
S-curve; it consumes telco market share
- Figure 44: WiMAX will consume 7% of the per year of the US enterprise
telecommunications market per year beginning in 2010
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