1. doc.: IEEE 802.15-<doc#>
<month year>
doc.: IEEE <doc#>
Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)
Submission Title: [Applications of ULP]
Date Submitted: [July 18th, 2012]
Source: [Hiroshi Harada]
Company [NICT]
Address [3-4, Hikari-no-oka,Yokosuka-shi,Kanagawa ,Japan]
Voice:[ ]
FAX: [ ] ]
Re: [In response to TG4q Call for applications]
Abstract: [This contribution proposes ULP applications.]
Notice: This document has been prepared to assist the IEEE P It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein.
Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P
Hiroshi Harada (NICT)
<author>, <company>

2. July 18, 2012 Hiroshi Harada, NICT
Applications of ULP
July 18, 2012
Hiroshi Harada, NICT
Hiroshi Harada (NICT)

3. Abstract This presentation summarizes fundamental application of ULP
July 2012
doc.: IEEE /0626r0
July 2012
Abstract
This presentation summarizes fundamental application of ULP
Hiroshi Harada (NICT)
Hiroshi Harada, NICT

4. Applications Utility grid network Monitoring for Agriculture
July 2012
Applications
Utility grid network
(in house) Monitoring power consumption
(out door) Pollution/noise monitoring
Monitoring for Agriculture
Monitoring growth of plants
Monitoring domestic animal (eg. Cattle ..)
Digital signage
Advertisement
Home Network
Control white goods （refrigerators, washing machines, etc.）
Hiroshi Harada (NICT)

5. Utility Grid Network Outdoor Indoor Sensors and ULP device are unified
July 2012
Utility Grid Network
Outdoor
Sensors and ULP device are unified
ULP device set on the utility pole with solar battery (no electricity supply)
Multihop communication is available between ULP devices
Data will be collected via multihop communication to the server
Indoor
Energy consumption of white goods （refrigerators, washing machines, etc.） will be collected
White goods equip ULP device
Each ULP device will be connected with data collector
Hiroshi Harada (NICT)

6. Utility Grid Network July 2012 Items Propagation environment
Outdoor LOS/NLOS
Indoor LOS/NLOS
Data rate per user
kbps
PHY Layer PER
0.1
Transmission range (per one hop)
< 50m
Mobility speed
0 km/h
Tolerable delay
Low
Security level
High
Others
Network base
Hiroshi Harada (NICT)

7. Monitoring for Agriculture
July 2012
Monitoring for Agriculture
Outdoor
Sensors and ULP device are unified
ULP device set on the utility pole with solar battery (no electricity supply)
Multihop communication is available between ULP devices
Data will be collected via multihop communication to the server
Hiroshi Harada (NICT)

8. Monitoring for Agriculture
July 2012
Monitoring for Agriculture
Items
Propagation environment
Outdoor LOS/NLOS
Data rate per user
Smaller than 10 kbps
PHY Layer PER
0.1
Transmission range (per one hop)
< 50m
Mobility speed
0 km/h
Tolerable delay
Low
Security level
High
Others
Network base
Hiroshi Harada (NICT)

9. Digital signage July 2012 Shinagawa station
Hiroshi Harada (NICT)

10. Digital signage Indoor/Outdoor
July 2012
Digital signage
Indoor/Outdoor
Send advertisement data to the signage system
Each signage system stands its own feet with battery (solar)
Text base or simple image base (not video) advertisement
Data will be sent via multihop/direct communication from the server
Hiroshi Harada (NICT)

11. Digital signage July 2012 Items Propagation environment
Outdoor LOS/NLOS
Indoor LOS/NLOS
Data rate per user
kbps
PHY Layer PER
0.1
Transmission range
> 50m
Mobility speed
0 km/h
Tolerable delay
Very Low
Security level
High
Others
Direct and multihop communications
Hiroshi Harada (NICT)

12. July 2012
Home network
Indoor
ULP device is equipped in the white goods or audio and visual sets and its controller
The controller(s) controls the goods and sets
Direct commutation base
Hiroshi Harada (NICT)

13. Home network July 2012 Items Propagation environment Indoor LOS/NLOS
Data rate per user
kbps
PHY Layer PER
0.1
Transmission range
< 50m
Mobility speed
0 – 4km/h
Tolerable delay
High (Instantaneous response)
Security level
High
Others
Direct communication
Hiroshi Harada (NICT)

14. Operational frequency band

15. Channel Plan and output power in 920MHz Band
5 Regulatory Mode
Middle Power Mode (≦250mW)
Low Power Mode (≦ 20mW)
Basic Regulation
Extended Regulation
Ultra low Power Mode (≦ 1mW)

16. Ultra Low Power Mode (Basic)
Expected Applications: Active RFID
Frequency: MHz
Antenna Power: ≤ 1mW
Antenna Gain: ≤ 3dBi
Channel Width: 200kHz*n (n=1-5)
Adjacent Channel Leakage Power:
-26dBm
Transmission Control:
Carrier sense time
Sending duration
Pause duration
The amount of sending time summed for 1 hour
Not needed
≤ 100ms
≥ 100ms
≤ 3.6s

17. Ultra Low Power Mode (Extended)
Expected Applications: Remote Control
Frequency: MHz
Antenna Power: ≤ 1mW
Antenna Gain: ≤ 3dBi
Channel Width: 100kHz*n (n=1-5)
Adjacent Channel Leakage Power:
-26dBm
Transmission Control:
Carrier sense time
Sending duration
Pause duration
The amount of sending time summed for 1 hour
Not needed
≤ 50ms
≥ 50ms
Don’t care