From 802.15
From: ***** IEEE 802 Executive Committee List ***** [mailto:STDS-802-SEC@xxxxxxxx]
On Behalf Of Bob Heile
Sent: Friday, December 13, 2013 10:31 AM
To: STDS-802-SEC@xxxxxxxxxxxxxxxxx
Subject: [802SEC] CALL FOR APPLICATIONS on Optical Camera Communications (Jan. Meeting, 2014)
EC Colleagues
It would be appreciated of you could forward this to your working groups or any other organization you think may have an interest in Optical Camera Communications.
Thanks and Regards
Bob
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CALL FOR APPLICATIONS on Optical Camera CommunicationsIEEE 802.15 has formed a Study Group to draft a Project Authorization Request (PAR)
for an amendment to IEEE 802.15.7-2011 implementing Optical Camera Communications(OCC) enabling scalable data rate, positioning/localization, and message broadcasting, etc. using things like the flash, display and image sensor as the transmitting and receiving
devices. In support of this activity Contributions are requested addressing potential applications.
RELEASE DATE: November, 2013
For Presentations at the January 2014 Session in Los Angeles, CA, USA and the March 2014 Session in Beijing, China
Information in regards to these meetings can be found at:
http://grouper.ieee.org/groups/802/15/pub/Meeting_Plan.html
IEEE P802.15.SG7a Optical Camera Communications Study Group is studying applications and technology in support of creating a Project Authorization Request (PAR) for creating a task group to write an air interface standard that supports the transmission
of data by modulated lights that can be received and processed via an image sensor.
This Call for Applications (CFA) solicits input which will help in the creation of the PAR.
The following is a list of some optical camera communications characteristics which may be leveraged in a particular application.
- The receiver may be an image sensor associated with a camera. The objective is to enable the reception of data modulated light without making any hardware modifications to the camera enabled platform.
- The light sources may be multi-colored, uni-colored or white.
- The lens associated with the camera may offer spatial separation of light sources that opens up the possibility of doing MIMO data transmissions.
- There have been a number of optical camera communications demonstrations uploaded to YouTube, using different modulation and detection methods, as listed below.
a) Under-sampled Frequency Shifted ON-OFF Keying (UFSOOK) (Intel Labs)
http://www.youtube.com/watch?v=K0xsZqTRXes
b) Nyquist Sampled Picapicamera (Casio)
http://www.youtube.com/watch?v=t27x1sztArE
c) Rolling Shutter Sampling (PureVLC)
http://www.youtube.com/watch?v=IaxD4SF3jsA
The study group would be interested in hearing about applications for optical camera communications technologies.
Please see document 15-13-0555-02-0led-camcom-call-for-applications for participation details
https://mentor.ieee.org/802.15/dcn/13/15-13-0555-02-0led-camcom-call-for-applications.doc .
Please disseminate this email to interested parties.
Best regards,
Yeong Min Jang, Professor
Chair, IEEE P802.15.SG7a Optical Camera Communications Study Group
Director, LED Convergence Research Center
Kookmin University, Seoul, Korea
voice: +82-2-910-5068
e-mail: yjang@xxxxxxxxxxxxx
Bob Heile, Ph.D
Chairman Emeritus & Chief Technologist, ZigBee Alliance
Chair, IEEE 802.15 Working Group on Wireless Personal Area Networks
Co-Chair IEEE P2030 Task Force 3 on Smartgrid Communications
11 Robert Toner Blvd
Suite 5-301
North Attleboro, MA 02763 USA
Mobile: +1-781-929-4832
email: bheile@xxxxxxxx
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