Title: ECE 250: Wireless Communications and Networking Lecture 1
1ECE 250 Wireless Communications
andNetworkingLecture 1
- Prof. Volkan Rodoplu
- UCSB
- Spring 2005
- Acknowledgments Prof. Ted Rappaport,
- Prof. Narayan Mandayam, Prof. Andrea Goldsmith
2OSI Model
Computer Science
Electrical Engineering
3Why go wireless ?
- Advantages
- Sometimes it is impractical to lay cables
- User mobility
- Cost
- Limitations
- Bandwidth
- Fidelity
- Power
- (In)security
4Wired Vs. Wireless Communication
Each cable is a different channel
One media (cable) shared by all
High signal attenuation
Signal attenuation is low
High interference noise co-channel interference
adjacent channel interference
5Wireless Systems Range Comparison
1,000 Km
100 Km
10 Km
1 Km
100 m
10 m
1 m
6Cellular Systems
7Growth of Cellular Subscribers
8Cellular System Evolution
9Understanding wireless communication
Tx
Rx
- How does signal propagate ?
- How much attenuation take place ?
- How does signal look like at the receiver ?
10EM Spectrum
X rays
Gamma rays
visible
UV
infrared
?
1 MHz
1 kHz
1 GHz
1 THz
1 PHz
1 EHz
Propagation characteristics are different in each
frequency band
11Radio Propagation
Three basic propagation mechanisms
Scattering ? gtgt D
Diffraction ? ? D
Reflection ? ltlt D
- Propagation effects depend on not only on the
specific portion of spectrum used for
transmission, but also on the bandwidth (or
spectral occupancy) of the signal being
transmitted - Spatial separation of Tx-Rx
12Propagation
The higher frequencies will usually encounter
more loss in real world situations
13Path loss in dB
Path loss from source to d2 70dB
14The Cluttered World of Radio Waves
hills
girders
rain
hallways
windows
vehicles
trees
walls
15Wireless Networks
Ubiquitous Communication Among People and Devices
Wireless Internet access Nth generation
Cellular Wireless Ad Hoc Networks Sensor Networks
Wireless Entertainment Smart Homes/Spaces Automat
ed Highways All this and more