Submission doc.: IEEE 802.11-16/0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Date: 2016-03-14 Addressing the range and power requirements of indoor.

Slides:

Advertisements

Similar presentations

Doc.: IEEE /0301r2 Submission March 2011 David Halasz, OakTree WirelessSlide 1 Categories of TGah Use Cases and Straw Polls Date: Authors:

Advertisements

Sleep States in IEEE ax Simulation Scenarios

Doc.: IEEE /328r0 Submission July 04 M. Lee, C. Zhu / SamsungSlide 1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)

C ONTENTS 1-Introduction What are smart homes 2-Why smart homes 3- Applications of smart homes 4- The main objective of the project 5- The main phases.

Doc.: IEEE /0573r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 Scalable Authentication Date: Authors:

How Life Will Change With Smart Homes Yakovlev Artyom BCG account manager.

Doc.: IEEE /0323r0 SubmissionRon Porat, BroadcomSlide 1 Views on ah Use Cases Date: Authors: March 2011.

Doc.: IEEE /328r1 Submission September 04 M. Lee, C. Zhu / SamsungSlide 1 Project: IEEE P Working Group for Wireless Personal Area Networks.

Doc.: IEEE /650r0 Submission May 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 Grouping Methodology Date: Authors:

Submission Jan 2012 doc.: IEEE 11-12/69r2 ZTE CorporationSlide 1 Consideration on Max Idle Period Extension for ah Power Save Date: Authors:

Doc.: IEEE /1153r0 Submission September 2013 Laurent Cariou (Orange)Slide 1 Simulation scenario proposal Date: Authors:

Final Project Renewable Energy Method : Automated System Mentors Florida Mentor’s name Richard Gilbert Usurbilgo Mentor’s name Alberto Salvo Presenters.

Doc.: IEEE /1268r0 Submission November 2010 Minyoung Park, Intel Corp.Slide 1 Low Power Consumption Opportunity in Sub 1 GHz Date:

Doc.: IEEE /0585r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 IEEE ah and Security Date: Authors:

Doc.: IEEE /0060r1 Submission January 2011 Minyoung Park, Intel Corp.Slide 1 Low Power Capability Support for ah Date: Authors:

Submission doc.: IEEE 11-14/0586r0 May 2014 Igal Kotzer, General MotorsSlide 1 Automotive Considerations for the Simulation Scenarios Date: 12-May-2014.

Doc.: IEEE /1061r1 Submission September 2015 Kare Agardh, SonySlide 1 Further Use Cases for Next Generation Positioning Date: 2015/09/13 Authors:

Submission doc.: IEEE /xxxxr0 September 2015 Minseok OH, Kyonggi UniversitySlide 1 Long range low power Use Cases for Indoor Date:

Doc.: IEEE /0795r0 Submission HEW Usage Scenarios Categorization July 2013 Eldad Perahia (Intel)Slide 1 Date: Authors:

Doc.: IEEE /0094r2 Submission Jan 2012 Slide 1 Authors: MAC Header Design for Small Data Packet for ah Date: Lv kaiying, ZTE.

Submission doc.: IEEE /1108r0 Technical Feasibility for LRLP September 2015 Chittabrata Ghosh, IntelSlide 1 Date: Authors:

Submission doc.: IEEE /1112r1 Use Case of LRLP Operation for IoT September 2015 Chittabrata Ghosh, IntelSlide 1 Date: Authors:

Doc.: IEEE /0242r0 Submission Doc.:IEEE /0242r0 February 14, 2011 Rolf de Vegt (Qualcomm)Slide ah Usage Model Submission Sensor.

Doc.: IEEE xxxxx Submission doc. : IEEE wng0 Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks.

Doc.: IEEE /0834r0 Submission July 2015 Thomas Handte, SonySlide 1 Further Use Cases for Next Generation Positioning Date: 2015/07/13 Authors:

Smart Home for disabled people Students: Atara Gutman and Anastasia Logvinenko Instructor: Alexander Kinko PDR presentation Semester Spring part.

Submission doc.: IEEE 11-13/1398r0 Nov 2013 Akira Yamada, NTT DOCOMO, Inc.Slide 1 Requirements for HEW Date: Authors:

Submission doc.: IEEE /1365r0 Use Cases of LRLP Operation for IoT November 2015 Chittabrata Ghosh, IntelSlide 1 Date: Authors:

Doc.: IEEE /374r0 Submission March 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 Grouping For.11ah Networks Date: Authors:

Submission doc.: IEEE /1383r0 November 2015 Minseok OH, Kyonggi UniversitySlide 1 Long range low power Use Cases for Indoor & Outdoor Date:

Doc.: IEEE /1230r1 Submission ah Channel Access Improvement Date: Authors: May 2012 Minyoung Park, Intel Corp.Slide 1.

Doc.: IEEE /0299r0 Submission March 2011 Minyoung Park, Intel Corp.Slide 1 TGah Use Cases Summary and Aggregated PHY Rates Analysis Date:

Doc.: IEEE At home, IoT Use Case(s) for LRLP January 2016 SubmissionSlide 1 At home, IoT Use Case(s) for LRLP Date: Intel Authors:

Submission doc.: IEEE /1380r0 November 2015 NokiaSlide 1 LRLP Digital Health Use Case Date: Authors:

Doc.: IEEE /1520r4 Submission January 2016 Slide 1 IEEE LRLP TIG Long Range Low Power January 2016 Date: Authors:

Doc.: IEEE /1447r0 Submission November 2015 Tim Godfrey (EPRI)Slide 1 IEEE LRLP TIG Long Range Low Power November 2015 Closing Report Date:

Doc.: IEEE / Submission March 2013 Juho Pirskanen, Renesas Mobile CorporationSlide 1 Discussion On Basic Technical Aspects for HEW Date:

Doc.: IEEE /0588r0 Submission PHY power saving feature considerations Slide 1 May 2010 Yujin Noh, LG Electronics Date: Authors: NameAffiliationAddressPhone .

Doc.: IEEE /0970r1 Submission July 2011 Guixia Kang, BUPTSlide 1 IEEE ah Healthcare Use Cases Date: Authors:

Doc.: IEEE /0341r2 Submission March 2011 MediaTek, Inc Slide 1 Usage Cases for ah Date: Authors:

S MART H OME NETWORK D ESIGN. Aims : design a smart home based on Internet of Things. Objectives:  Define Internet of Things, Smart home (benefits and.

LP-WUR (Low-Power Wake-Up Receiver) Follow-Up

Doc.: IEEE /0334r0 March 2016 SubmissionStéphane Baron et al., Canon Scenario for LRLP SIG Date: Slide 1 Authors: NameAffiliationAddress .

Doc.: IEEE /0058r0 Submission Usage Scenarios and Applications For Long Range WiFi January 2016 Slide 1 Date: Authors: Jianhan Liu.

G Technologies for 5G SC Date: Authors: March 2016

Submission doc.: IEEE /1064r0 September 2015 Jarkko Kneckt, NokiaSlide 1 Long Range, Low Power Design Criteria Date: Authors:

Abhishek S. Chakradeo(2009BEC154) Charudatta G. Chousalkar(2009BEC155) Vijay W. Sable(2009BEC064)

S3b Sim Secual Product Training March Connected to your smartphone Communication by SIM card Interact with your system everywhere you are Control.

THE DIGITAL JOURNEY What IP means for technology enabled care

January 2017 Technical Topics for IoT/IoL (Internet of Lights) based LiFi/OCC Technology Date: Jan 18, 2017 Authors: Jaesang Cha, Seoul National Univ.

IEEE ah Healthcare Use Cases

On AP Power Saving Usage Model

Wearable Device Use Cases and Requirements for LRLP

WUR Usage Model Date: Authors: Nov 2016

Title of presentation Name(s) of author / presenter / co-authors

The Making of a Smart Home

Use Case of LRLP Operation for IoT

Drone Use Case Followup

Considerations on LRLP Transmissions

Consideration on Max Idle Period Extension for ah Power Save

Drone Use Case Followup

IEEE LRLP TIG March 2016 Closing Report

Usage Cases for ah Date: Authors: March 2011

On AP Power Saving Usage Model

IEEE LRLP TIG Long Range Low Power January 2016 Closing Report

WUR Usage Model Document

5G as a Social Infrastructure Chaesub LEE, Director, ITU

Sub 1 GHz Use Case Discussion

Presentation transcript:

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Date: Addressing the range and power requirements of indoor use cases Authors: Slide 1

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Introduction This presentation reviews the use cases across their power source Highlights the most promising use case for successful penetration into IoT market  Smart Home, which contains variety of devices from non-rechargeable batteries to rechargeable to AC power It discusses the low power and range requirement from different view points: Is non-rechargeable battery a key feature for STA? Can a simple multi-hop address long range/coverage? Slide 2

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Distance (meters) Use Cases across Range and Battery Type A summary from contributions [1-8]  majority of use cases can meet range requirement by using a simple multi-hop protocol relying on AC-powered assisting devices Slide 3 Longer Shorter Range Home (entertainment) Building Energy Management Agriculture Industrial Worker Security/Public Safety Transportation Non-rechargeable battery Power source AC Power Home (entertainment) > 500 < 10 Rechargeable battery Drone Industrial Automation Smart Home & Smart Buildings Assisted Living Healthcare Multi-hop relying on AC-powered assisting devices

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation The Most Popular Use Case: Smart Home Typical distribution of IOT devices in a smart home Slide 4 Room 3 Front door camera Smoke detector Light switch thermostat Video monitor Motion detector Weight scale Access Point Cloud plug LED light bulb Room 2 Smoke detector Light switch plug LED light bulb Room 1 Smoke detector Light switch LED light bulb

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Smart Home Services Smart Metering Energy clamps for energy monitoring Water metering Healthcare Weight, pulse rate, blood pressure… Home Appliances and automation Control of heating and air conditioning thermostats Fans Lighting Environmental sensors Temperature, humidity Detection Sensors for Security and Safety Door/window sensors & locks Motion sensors Cameras for security and remote monitoring smoke/fire Gas detection Water leak detection Services are similar for Assisted living, Healthcare and Smart Building use cases Number of devices will be different Slide 5

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Requirements & Topology for Smart Home Key Requirements Many of the sensors in the home must last years on non-rechargeable battery Mix of coin cell, AAA, AA, 9V which have capacity and peak current limitations Whole home coverage expected Mix of battery powered and AC powered devices in the environment Battery powered devices would be within a room distance from AC power devices, e.g. window sensor near AC plug or light bulb Traffic Sensors & controllers are low duty cycle, small packets, non-streaming traffic, especially battery powered devices no stringent latency requirement on sensors Controllers (e.g. light switch) would require less than TBD response delay Cameras stream at 1-5 Mbps either continually or triggered by motion detector or user request Slide 6

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Options for Long-Range Coverage Option 1: Long-range single-hop Single-hop between an AP and a STA Option 2: Long-range multi-hop Multi-hop between an AP and a STA and assisting STAs in the middle Internet Room1 Room2Room3 Room1 Room2Room3 AS* AS *) AS: Assisting STA A battery powered STA needs to support a long transmission range An AC powered device can assist a battery powered device to deliver data to an AP A battery powered device doesn’t need to support long transmission range Long-range single-hop Long-range multi-hop Slide 7

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation References (1/2) [1] IEEE /0775r1, WNG SC - Integrated Long Range Low Power Operation for IoT [2] IEEE /1112r1, LRLP TIG - Use Case of LRLP Operation for IoT [3] IEEE /1306r0, LRLP TIG - Use Case for LRLP and Full Function in STA [4] IEEE /1365r0, LRLP TIG - Use Cases of LRLP Operation for IoT [5] IEEE /1380r0, LRLP TIG - Digital Health Use Case [6] IEEE /1383r0, LRLP TIG - Use Cases for Indoor & Outdoor [7] IEEE /0058r2, LRLP TIG - Usage Scenarios and Applications For Long Range WiFi [8] IEEE /0016r0, LRLP TIG - At home, IoT Use Case(s) for LRLP Slide 8

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation References (2/2) [9] IEEE /1108r0, LRLP TIG - Technical Feasibility for LRLP [10] IEEE /1308r0, LRLP TIG - Link Budget Analysis [11] IEEE /0026, LRLP TIG - Coexistence Problem Slide 9