Doc.: IEEE 802.11-01/0242r0 Submission Doc.:IEEE 802.11-11/0242r0 February 14, 2011 Rolf de Vegt (Qualcomm)Slide 1 802.11ah Usage Model Submission Sensor.

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Presentation transcript:

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

doc.: IEEE /0242r0 Submission Doc.:IEEE /0242r0 February 14, 2011 Rolf de Vegt (Qualcomm)Slide 2 IEEE Abstract The purpose of this Document is to provide input to the discussion on Use Cases in the ah Taskgroup The document contains a Use Case for Sensor Networks

doc.: IEEE /0242r0 Submission February 14, 2011 Rolf de Vegt (Qualcomm)Slide 3 3 Usage Model : Temperature Sensor Network Traffic Conditions: Potential interference from overlapping networks using the same frequency bands. Potential range extension through the use of one repeater between far away sensors and the access points Use Case: 1. Sensors are deployed in the home in appropriate locations. A number of sensors likely to be battery operated 2.Home automation application periodically probes sensors to report temperatures; or sensors pro-actively report changes in temperature beyond a certain threshold; or sensors proactively report temperature readings a scheduled intervals Pre-Conditions: User has installed a series of 5 – 20 temperature sensors throughout the home. Most of the sensors are battery operated. Application: A home automation system operates its heating / cooling / ventilation system based on temperature readings received from the sensors. The temperature sensors provide updated readings either on a periodic basis, triggered by changes in temperature, or upon request by the home automation system or the end user. Temperature sensor readings are accessible by an authorized user, while being away from home. The payload data being transmitted is around 50 byte or less no stringent latency or jitter requirements. Environment: Typical coverage of a sensor network is an entire home, the maximum number of sensors typically in the 10 – 50 range. Doc.: IEEE /0242r0