1. doc.: IEEE - 15-11-0470-00-004j Submission Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Samsungs Pre-proposal for 802.15.4J] Date Submitted: [5 July 2011] Source: [Seung-Hoon Park, Jae-Seung Son, Kiran Bynam, Ranjeet.K.Patro, Taehan Bae, Thenmozhi Arunan, Dr.Euntae Won], Company [Samsung Electronics] Address [Bagmane Tech Park, CV Raman nagar, Bangalore] Voice:[+91 9986154930], FAX: [+91 80 41819000], E-Mail:[kiran.bynam@samsung.com] Re: [Call for Proposals, March 2011] [If this is a response to a Call for Contributions, cite the name and date of the Call for Contributions to which this document responds, as well as the relevant item number in the Call for Contributions.] [Note: Contributions that are not responsive to this section of the template, and contributions which do not address the topic under which they are submitted, may be refused or consigned to the “General Contributions” area.] Abstract:[This document describes the Samsungs Pre-Proposal to 802.15.4j] Purpose:[For consideration by TG 4j group] Notice:This document has been prepared to assist the IEEE P802.15. 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 P802.15. July 2011 Slide 1,

2. doc.: IEEE - 15-11-0470-00-004j Submission July 2011, Slide 2 MAC Proposal for IEEE 802.15.4J Seung-Hoon Park, Kiran Bynam, Ranjeet K Patro, Thenmozhi Arunan, Dr.Euntae Won

3. doc.: IEEE - 15-11-0470-00-004j Submission Outline Technical Requirements MAC Requirements Proposed ideas –Easy Pairing –Mutual Broadcast Period –Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN –Beacon Exchange –Congestion Avoidance –Coordinator Switching Summary July 2011, Slide 3

4. doc.: IEEE - 15-11-0470-00-004j Submission Technical Requirements and scope PHY and MAC amendment for 802.15.4 for support of medical devices in MBAN spectrum –Secondary usage of MBAN spectrum –Reusability of 802.15.4 protocol and PHY to enable the shifting of spectrum to 2.4 GHz ISM band in case of congestion in MBAN spectrum –Spectrum usage limited to data transmission intended for diagnosis, treatment of patients July 2011, Slide 4

5. doc.: IEEE - 15-11-0470-00-004j Submission MAC Requirements Low power consumption –Low duty cycling QoS for medical data –Enhanced channel access scheme –Robust mesh networking Mobility –Seamless monitoring Support for easy pairing –Intuitive/autonomous device discovery –simple association procedure July 2011, Slide 5

6. doc.: IEEE - 15-11-0470-00-004j Submission Easy Pairing Usage scenario –A medical expert wants to connect sensors to a patient, but monitoring device is far from the patient July 2011, Slide 6 Monitoring Device Patient Far from a patient Medical Expert

7. doc.: IEEE - 15-11-0470-00-004j Submission Easy Pairing Usage scenario –So the medical expert uses portable device to get patient record and connect sensors by touch-based communication (e.g. NFC) to the healthcare system of the patient July 2011, Slide 7 Monitoring Device Patient Far from a patient Medical Expert

8. doc.: IEEE - 15-11-0470-00-004j Submission Easy Pairing Required functions –Portable device intermediates pairing procedure between coordinator and sensor devices –Coordinator grants association authority to the portable device with required information –Coordinator allows association request for sensors from the portable device July 2011, Slide 8

9. doc.: IEEE - 15-11-0470-00-004j Submission Mutual Broadcast Period (MBP) Objectives –Enhanced channel access scheme –To inform queue length among devices –Load balancing to avoid much back-offs Required functions –Additional period using CSMA-CA for mutual broadcasting among devices July 2011, Slide 9 B MBP CAPBInactive Active

10. doc.: IEEE - 15-11-0470-00-004j Submission Mutual Broadcast Period (MBP) July 2011, Slide 10 BMBPCAP Device 1 Coordinator E- CAP Device 2 Device 3 Device 4 Q Q Q Q X X Q Q Q Q Q Q Q Q X X Device 5 Q Q E- CAP Q Q Q Q X N- CAP E- CAP Q Q N- CAP B-CAP Q Q X CAZ 1CAZ 2CAZ 3CAZ 4CAZ 5CAZ 6 MBZ 1 MBZ 2 MBZ 3 MBZ 4 MBZ 5 MBZ 6 *Q: QoS information broadcast (queue length, etc)*E-CAP (Exclusive CAP), N-CAP (Normal CAP), B-CAP (Background CAP)

11. doc.: IEEE - 15-11-0470-00-004j Submission Mutual Broadcast Period (MBP) Operation –Device broadcasts short QoS information (using CSMA-CA with shorter back-off slot length) during MBZ(Mutual Broadcast Zone) which is selected to notify the intention of access to corresponding CAZ(Contention Access Zone) –Device can select one or multiple of MBZs/CAZs according to traffic demand July 2011, Slide 11 MBZ 1MBZ 2 Mini backoff slot

12. doc.: IEEE - 15-11-0470-00-004j Submission Mutual Broadcast Period (MBP) 3 different types of CAPs –Exclusive CAP for device which broadcasts successfully at MBZ –Normal CAP for device which just listens during corresponding MBZ same as original CAP –Background CAP for device which failed at all trials over MBP –Greedy level of CSMA-CA transmission Exclusive CAP > Normal CAP > background CAP July 2011, Slide 12

13. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Motivation –Nonbeacon mode is useful for low power consumption and simplicity –However, Nonbeacon mode has low performance due to asynchrony within devices Solution –Synchronized channel access mechanism at Nonbeacon-enabled PAN July 2011, Slide 13

14. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Approach for synchronization –Not MAC-level synchronization No timestamp No packet exchange within devices  a little error from delay –PHY-level synchronization Using known symbols (e.g. sync symbols) Low power consumption & fast convergence E.g. Pulse-Coupled Oscillator synchronization July 2011, Slide 14 [Reference] R. E. Mirollo and S. H. Strogatz, “Synchronization of pulse-coupled biological oscillators,” Journal on Applied Mathematics, vol. 50, pp. 1645–1662, Dec. 1990.

15. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN PCO In-phase Synchronization –(a) Each oscillator has its own phase and firing frequency with same period T. –(b) Oscillator B receives positive stimulus and promote firing frequency, oscillator E receives negative stimulus and repress the firing frequency. –(c) After iterations, the phase between each oscillator becomes equal and in-phase synchronization is realized. July 2011, Slide 15 Fire A B C A B C D E D E C A B D E C * Pulse-Coupled Oscillator (PCO)

16. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN PCO Anti-phase Synchronization –(a) Each oscillator has its own phase and firing frequency with same period T. –(b) Oscillator B receives positive stimulus and promote firing frequency, oscillator E receives negative stimulus and repress the firing frequency. –(c) After iterations, the phase offset between each oscillator becomes equal and anti- phase synchronization is realized. July 2011, Slide 16 Fire A B C D E A B C D E A B C D E C

17. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Unslotted CSMA-CA –Using PCO anti-phase synchronization July 2011, Slide 17 A’s CAP E’s CAP D’s CAP C’s CAP B’s CAP Anti-sync word A E D C B

18. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Unslotted CSMA-CA –Each device calculates its own CAP duration based on neighbor devices’ firing time –For example, device A detects the timing of its next firing during the previous period –Device A decides its own CAP from A’s firing to next firing (E’s firing) –E’s firing may be changed but only backwards –So A’s CSMA-CA transmission will not affect E’s operation July 2011, Slide 18

19. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Slotted CSMA-CA –Using both PCO in-phase & anti-phase synchronization July 2011, Slide 19 A’s CAP E’s CAP D’s CAP C’s CAP B’s CAP Anti-sync Word A Sync Word E D C B A B C D E

20. doc.: IEEE - 15-11-0470-00-004j Submission Unslotted & Slotted CSMA-CA at Nonbeacon-enabled PAN Slotted CSMA-CA –Each device calculates its own CAP duration based on neighbor devices’ firing time of Anti-sync Word (The method is same as unslotted CSMA- CA case) –Each device refer the firing time of Sync-word of its own, as the back-off slot boundary All Sync-word and related oscillators’ phase are going into same phase, and finally converged July 2011, Slide 20

21. doc.: IEEE - 15-11-0470-00-004j Submission Beacon Exchange For beacon exchange, symmetric link between nodes should be guaranteed. So beacon relaying method is required if there is asymmetric link. July 2011, Slide 21 A B X O C Relay request & response Relay notice

22. doc.: IEEE - 15-11-0470-00-004j Submission Congestion Avoidance at Relay Node Problem –a relay node receives data from a plurality of sensor nodes at the same time, congestion arises due to the bottleneck of buffer overflow Solution –a relay node broadcasts a response signal comprising congestion-related information with respect to data transmitted to the relay node from a certain sensor node, and then adjacent sensor nodes learn the state of the certain sensor node by referring to the congestion-related information comprised in the response signal July 2011, Slide 22

23. doc.: IEEE - 15-11-0470-00-004j Submission Coordinator Switching Motivation –The method which can promptly replace the present coordinator with another device if an unexpected situation happens so that the present coordinator cannot suddenly broadcast a sync signal Operation –1) selecting a coordinator that broadcasts a sync signal for synchronizing network –2) selecting devices and setting a priority of the selected replacement coordinators –3) transmitting the priority to the selected replacement coordinator –4) if the sync signal is not broadcast for a predetermined time, the replacement coodrinator becomes a new coordinator in accordance with the set priority July 2011, Slide 23

24. doc.: IEEE - 15-11-0470-00-004j Submission Service based Discovery Motivation –There may be many different types of coordinators –Sensor may consume much power to scan and connect all coordinators, and find the proper one according to service type Solution –Service ID in Beacon frame July 2011, Slide 24

25. doc.: IEEE - 15-11-0470-00-004j Submission Summary Low power consumption –Low duty cycling QoS for medical data –Enhanced channel access scheme –Robust mesh networking Mobility –Seamless monitoring Support for easy pairing –Intuitive/autonomous device discovery –simple association procedure July 2011, Slide 25 Mutual Broadcast Period Unslotted & Slotted CSMA-CA for Nonbeacon-enabled PAN Proxy Association procedure Service based Discovery Beacon Exchange Congestion Avoidance Coordinator Switching