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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: STM_CEA-LETI_CWC_AETHERWIRE_MITSUBISHI_FTR&D 15.4aCFP response Date Submitted: January 4th, 2005

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Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

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  1. Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) • Submission Title:STM_CEA-LETI_CWC_AETHERWIRE_MITSUBISHI_FTR&D 15.4aCFP response • Date Submitted: January 4th, 2005 • Source: Ian Oppermann (1), Mark Jamtgaard (2), Laurent Ouvry (3), Philippe Rouzet (4), Andreas F. Molisch(5), Philip Orlik(5), Zafer Sahinoglu (5), Rick Roberts (6), Vern Brethour (7), Adrian Jennings (7) , Patricia Martigne (8), Benoit Miscopein (8), Jean Schwoerer (8) • Companies: • (1) CWC-University of Oulu, Tutkijantie 2 E, 90570 Oulu, FINLAND • (2) Æther Wire & Location, Inc., 520 E. Weddell Drive, Suite 5, Sunnyvale, CA 94089, USA • (3) CEA-LETI, 17 rue des Martyrs 38054, Grenoble Cedex, FRANCE • (4) STMicroelectronics, CH-1228, Geneva, Plan-les-Ouates,SWITZERLAND • (5) MERL, 201 Broadway, Boston, USA • (6) Harris, (7)Time Domain, Hansville, Alabama • (8) FT R&D, 28 Chemin des vieux chênes, BP98, 38243 Meylan Cedex • Voice: (1) +358 407 076 344, (2) 408 400 0785 (3) +33 4 38 78 93 88, (4) +41 22 929 58 66 (5) +1 617 621 7500 • E-Mail: (1) ian@ee.oulu.fi, (2) mark@aetherwire.com(3) laurent.ouvry@cea.fr, (4) philippe.rouzet@st.com, (5) {molisch, porlik, zafer}@merl.com, rrober14@harris.com, {vern.brethour, adrian.jennings}@timedomain.com, (8) {patricia.martigne, benoit.miscopein, jean.schwoerer}@francetelecom.com • Abstract: UWB proposal for 802.15.4a alt-PHY • Purpose: Proposal based on UWB impulse radio for the IEEE 802.15.4a CFP • 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 contributors acknowledge and accept that this contribution becomes the property of IEEE and may be made publicly available by P802.15

  2. List of Authors • CWC– Ian Oppermann, Alberto Rabbachin (1) • AetherWire – Mark Jamtgaard, Patrick Houghton (2) • CEA-LETI – Laurent Ouvry, Samuel Dubouloz, Sébastien de Rivaz, Benoit Denis, Michael Pelissier, Manuel Pezzin et al. (3) • STMicroelectronics– Gian Mario Maggio, Chiara Cattaneo, Philippe Rouzet & al. (4) • MERL– Andreas F. Molisch, Philip Orlik, Zafer Sahinoglu (5) • Harris – Rick Roberts (6) • Time Domain – Vern Brethour, Adrian Jennings (7) • France Telecom R&D – Patricia Martigne, Benoit Miscopein, Jean Schwoerer (8)

  3. Outline • Introduction • Background • Transmitted Signal • Receiver Architectures • Bandwidth Usage • Optional Aspects • System performances • Link budget • Framing, throughput • Power Saving • Ranging and Delay Estimation • Feasibility • Conclusions

  4. Proposal Main Features • Impulse-radio based (pulse-shape independent) • Support for different receiver architectures (coherent/non-coherent) • Flexible modulation format • Support for multiple rates • Enables accurate ranging/positioning • Support for multiple SOP

  5. Motivation for (2-4): • Supports homogenous and heterogeneous network architectures • Different classes of nodes, with different reliability requirements (and cost) must inter-work

  6. UWB Technology • Impulse-Radio (IR) based: • Very short pulses  Reduced ISI • Robustness against fading • Episodic transmission (for LDR) allowing long sleep-mode periods and energy saving • Low-complexity implementation

  7. Modulation Features • Simple, scalable modulation format • Flexibility for system designer • Modulation compatible with multiple coherent/non-coherent receiver schemes • Time hopping (TH) to achieve multiple access

  8. Commonalities with Other Proposals • The present document is the result of preliminary merging efforts among the new CWC/STm/LETI/AetherWire/MERL/Harris/FTR&D/TDC group. Work is still ongoing for refining and consolidation of some of the parameters described in this proposal. • Discussions are under way for further collaborations and merging in 802.15.4a.

  9. Outline • Introduction • Background • Transmitted Signal • Receiver Architectures • Bandwidth Usage • Optional Aspects • System performances • Link budget • Framing, throughput • Power Saving • Ranging and Delay Estimation • Feasibility • Conclusions

  10. Definitions Coherent RX: The phase of the received carrier waveform is known, and utilized for demodulation Differentially-coherent RX: The carrier phase of the previous signaling interval is used as phase reference for demodulation Non-coherent RX: The phase information (e.g. pulse polarity) is unknown at the receiver -operates as an energy collector -or as an amplitude detector

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