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![Page 1: H. Scott Matthews Carnegie Mellon University AT&T Industrial Ecology Faculty Fellow H. Scott Matthews Carnegie Mellon University AT&T Industrial Ecology.](https://reader036.fdocuments.net/reader036/viewer/2022062407/56649ce65503460f949b4088/html5/thumbnails/1.jpg)
H. Scott MatthewsCarnegie Mellon University
AT&T Industrial Ecology Faculty Fellow
Electricity Use of U.S. Telecom
Networks
Electricity Use of U.S. Telecom
Networks
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• Re-motivation - Why we need to care about electricity use (esp. for electronics)
• Previous research
• Scope of Study
• Results and Commentary
Agenda
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QuickTime™ and aTIFF (Uncompressed) decompressorare needed to see this picture.
Energy Flow Diagram
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System Losses
36.3 GJ Electricity Grid10%
Distribution/Transmission
32.7 GJCustomer
PowerSupply 40%
19.6 GJ
We lose, on average, 80% of the energy we extract when
using it for electronic products
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• Previously measured wired, wireless, and total electricity use of CMU campus network
• Total: ‘network’ uses 5% of campus electricity (~5 MkWh / yr)
• Wireless ‘equipment’: 5-10x less electricity than wired
• While not purely generalizable, an indicator of the potential energy efficiency of wireless
Our Prior Research
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• Blazek et al, compared Stockholm (Sweden) and Sacramento (CA, USA) phone networks
• Roth et al, “Electricity Consumption of Office and Residential Equipment”, for US Department of Energy, 2002.
• Our campus wired-wireless study
• Common thread: ICT devices and systems may be significant consumers of electricity
Relevant Prior Research
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• PSTN = Publicly Switched Telephone Network
• a.k.a. the wired network, originally built by AT&T (power supplied by line, except for cordless phones)
• Mobile network = system of stations, antennas, handsets, etc. needed to support wireless telecommunications
• Includes ‘cell towers’, sites, etc.
Definitions
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• These 2 cities were comparable in terms of size, population, users, etc. (although Stockholm much more ‘mobile’)
• Report estimated network size, equipment requirements, etc. for both cities’ networks
• Also estimated materials, environmental, and energy requirements (including support/service activities like administrative offices)
• We used these estimates as a basis
Stockholm/Sacramento Report
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US Wired Network
Stockholm
Model
Sacramento Model
Total (TWh/yr)
28 24
Per connection (MWh/yr)
0.14 0.12
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US Wireless Network
Stockholm
Model
Sacramento Model
Total (TWh/yr)
5 5
Per connection (MWh/yr)
0.04 0.04
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• Wireless / mobile network is not entirely wireless!
• Except for small fraction of wireless calls, most calls go through wired network
• Need to allocate some fraction of wired network electricity to wireless calls
• We use call-minutes as a proxy - 2500 billion wired, 500 B wireless (15%) in 2000
But..
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Adjusted US Wireless Network
Stockholm
Model
Sacramento Model
Total (TWh/yr)
8 7
Per connection (MWh/yr)
0.06 0.06
Watts/call minute
16 15
Even when adjusted, wireless 2x more energy efficient
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Overall Results
Stockholm
Model
Sacramento Model
Total Wired + Mobile
(TWh/yr)33 29
Percent Mobile
25% 25%
Percent US Elec
1% 1%
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• In 2002, International Telecommunications Union (ITU) noted the number of wired and wireless ‘lines’ roughly equal (about 1 billion each)
• Global wireless subscribers growing rapidly
• Wired subscribers flat (and declining in US)
Facts
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Wired vs. Wireless electricity (Watts per
subscriber)
Thus, electricity use ‘per subscriber’ will rapidly favor wireless and trend to 10x
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• ‘Efficiency’ of wireless (versus wired) communications is irrelevant!
• For foreseeable future, we will have need for wired networks (if nothing else, to make long-range mobile calls!)
• This dependency will limit our ability to realize energy savings from wireless
• i.e., until we ‘pull the plug’, we are using more total energy to have both to use
Final Thoughts