WaterWell Final Presentation  Athanasios Floros  Chen Huang  Gökhan Dogan  Manzoor Bahader  Tao Sun  Zhichao Cao Csd 2008 Fall

Slides:

Advertisements

Similar presentations

Phil Buonadonna, Jason Hill CS-268, Spring 2000 MOTE Active Messages Communication Architectures for Networked Mini-Devices Networked sub-devicesActive.

Advertisements

A 2 -MAC: An Adaptive, Anycast MAC Protocol for Wireless Sensor Networks Hwee-Xian TAN and Mun Choon CHAN Department of Computer Science, School of Computing.

SELF-ORGANIZING MEDIA ACCESS MECHANISM OF A WIRELESS SENSOR NETWORK AHM QUAMRUZZAMAN.

Transmission Power Control in Wireless Sensor Networks CS577 Project by Andrew Keating 1.

Decentralized Reactive Clustering in Sensor Networks Yingyue Xu April 26, 2015.

A New Technology Transmitter Real Time ScadaLynx Model

pTunes: Runtime Parameter Adaptation for Low-power MAC Protocols

Sensor Network 教育部資通訊科技人才培育先導型計畫. 1.Introduction General Purpose  A wireless sensor network (WSN) is a wireless network using sensors to cooperatively.

Sec-TEEN: Secure Threshold sensitive Energy Efficient sensor Network protocol Ibrahim Alkhori, Tamer Abukhalil & Abdel-shakour A. Abuznied Department of.

Improving TCP Performance over Mobile Ad Hoc Networks by Exploiting Cross- Layer Information Awareness Xin Yu Department Of Computer Science New York University,

PERFORMANCE MEASUREMENTS OF WIRELESS SENSOR NETWORKS Gizem ERDOĞAN.

A Project Team Members: Shamlan AlbaharRifaah Alkhamis Doug BloomquistChris Deboer.

PEDS September 18, 2006 Power Efficient System for Sensor Networks1 S. Coleri, A. Puri and P. Varaiya UC Berkeley Eighth IEEE International Symposium on.

1-1 Topology Control. 1-2 What’s topology control?

Smart-Sensor Infrastructure in the IPAC Architecture V.Tsetsos 1, V. Papataxiarhis 1, F.Kontos 1, P.Patelis 2, S.Hadjiefthymiades 1, E.Fytros 2, L.Liotti.

Energy-Efficient Design Some design issues in each protocol layer Design options for each layer in the protocol stack.

1 Ultra-Low Duty Cycle MAC with Scheduled Channel Polling Wei Ye Fabio Silva John Heidemann Presented by: Ronak Bhuta Date: 4 th December 2007.

Coordinate Based Tracking System

1-1 CMPE 259 Sensor Networks Katia Obraczka Winter 2005 Topology Control.

A Framework for Patient Monitoring A. L. Praveen Aroul, William Walker, Dinesh Bhatia Department of Electrical Engineering University of Texas at Dallas.

Performance Evaluation of IEEE

Supervisor: Mr. Hai Vortman. The ultimate goal Creating a wireless sensor network using Bluetooth technology.

Analysis of the Performance of IEEE for Medical Sensor Body Area Networking ECE 5900 Computer Engineering Seminar Instructor: Dr. Chigan Huaming.

On the Energy Efficient Design of Wireless Sensor Networks Tariq M. Jadoon, PhD Department of Computer Science Lahore University of Management Sciences.

Versatile low power media access for wireless sensor networks Joseph PolastreJason HillDavid Culler Computer Science Department University of California,Berkeley.

Power saving technique for multi-hop ad hoc wireless networks.

Empirical Analysis of Transmission Power Control Algorithms for Wireless Sensor Networks CENTS Retreat – May 26, 2005 Jaein Jeong (1), David Culler (1),

 A system consisting of a number of remote terminal units (or RTUs) collecting field data connected back to a master station via a communications system.

Energy Conservation in wireless sensor networks Kshitij Desai, Mayuresh Randive, Animesh Nandanwar.

Radio-Triggered Wake-Up Capability for Sensor Networks Soji Sajuyigbe Duke University Slides adapted from: Wireless Sensor Networks Power Management Prof.

DISSOLVED OXYGEN MONITOR TEAM MEMBERS: ANDREW BEOUGHER ANTHONY SWOPE HAO WANG I-CHUN CHAO BING BAI COLIN HICKS Senior Design Dec1211 Dec1211.

Stand-Alone and Mesh Networks of Dissolved Oxygen (DO) Monitors Sd-May11-20 Betty Nguyen Scott Mertz David Hansen Ashley Polkinghorn Advisors Joseph Shinar.

1 Energy Efficient Communication in Wireless Sensor Networks Yingyue Xu 8/14/2015.

© 2006 Cisco Systems, Inc. All rights reserved. ICND v2.3—1-1 Configuring Catalyst Switch Operations Introducing Basic Layer 2 Switching and Bridging Functions.

Energy Saving In Sensor Network Using Specialized Nodes Shahab Salehi EE 695.

Electrical & Computer Engineering Presentation by: Andrew Frieden Matthew Weydt Nick Setzer Tyler Dunn PDR 2012 – Team Gong Self Sustaining Sensor System.

DESIGN & IMPLEMENTATION OF SMALL SCALE WIRELESS SENSOR NETWORK

Wearable Sensors Final Presentation Problem Background Inferred Transmission (short range) Bulky Design, hard to wear 20 Samples per second.

WSN Done By: 3bdulRa7man Al7arthi Mo7mad AlHudaib Moh7amad Ba7emed Wireless Sensors Network.

Low-Power Wireless Sensor Networks

Maintaining Performance while Saving Energy on Wireless LANs Ronny Krashinsky Term Project

Power Save Mechanisms for Multi-Hop Wireless Networks Matthew J. Miller and Nitin H. Vaidya University of Illinois at Urbana-Champaign BROADNETS October.

Mohamed Hefeeda 1 School of Computing Science Simon Fraser University, Canada Video Streaming over Cooperative Wireless Networks Mohamed Hefeeda (Joint.

Wireless Sensor Network Research and Application In Agricultural Environment Monitoring Meng Hao Gu Lichuan Sun Fukang Instructor : Professor Frank Y.S.

Advanced Computer Networks Fall 2013

Scope To convert panel meter based BOD incubator to a dedicated and customized control unit with enhanced feature and automation. Existing product with.

Versatile Low Power Media Access for Wireless Sensor Networks Sarat Chandra Subramaniam.

Efficient Energy Management Protocol for Target Tracking Sensor Networks X. Du, F. Lin Department of Computer Science North Dakota State University Fargo,

ELECTIONEL ECTI ON ELECTION: Energy-efficient and Low- latEncy sCheduling Technique for wIreless sensOr Networks Shamim Begum, Shao-Cheng Wang, Bhaskar.

Department of Computer Science and Engineering UESTC 1 RxLayer: Adaptive Retransmission Layer for Low Power Wireless Daibo Liu 1, Zhichao Cao 2, Jiliang.

McGraw-Hill©The McGraw-Hill Companies, Inc., 2004 Connecting Devices CORPORATE INSTITUTE OF SCIENCE & TECHNOLOGY, BHOPAL Department of Electronics and.

Low Power, Low Delay: Opportunistic Routing meets Duty Cycling Olaf Landsiedel 1, Euhanna Ghadimi 2, Simon Duquennoy 3, Mikael Johansson 2 1 Chalmers University.

Evaluating Wireless Network Performance David P. Daugherty ITEC 650 Radford University March 23, 2006.

A. Hangan, L. Vacariu, O. Cret, H. Hedesiu Technical University of Cluj-Napoca A Prototype for the Remote Monitoring of Water Parameters.

A Wakeup Scheme for Sensor Networks: Achieving Balance between Energy Saving and End-to-end Delay Xue Yang, Nitin H.Vaidya Department of Electrical and.

Adaptive Sleep Scheduling for Energy-efficient Movement-predicted Wireless Communication David K. Y. Yau Purdue University Department of Computer Science.

SEA-MAC: A Simple Energy Aware MAC Protocol for Wireless Sensor Networks for Environmental Monitoring Applications By: Miguel A. Erazo and Yi Qian International.

WaterWell Online Water Quality Management - CSD Fall 2008 WaterWell Solution Online Water Quality Management

Sun Small Programmable Object Technology (Sun SPOT)‏

Toward Reliable and Efficient Reporting in Wireless Sensor Networks Authors: Fatma Bouabdallah Nizar Bouabdallah Raouf Boutaba.

S-MAC Taekyoung Kwon. MAC in sensor network Energy-efficient Scalable –Size, density, topology change Fairness Latency Throughput/utilization.

Power-Efficient Rendez- vous Schemes for Dense Wireless Sensor Networks En-Yi A. Lin, Jan M. Rabaey Berkeley Wireless Research Center University of California,

AUTO-ADAPTIVE MAC FOR ENERGY-EFﬁCIENT BURST TRANSMISSIONS IN WIRELESS SENSOR NETWORKS Romain Kuntz, Antoine Gallais and Thomas No¨el IEEE WCNC 2011 Speaker.

Low Power Management for CC2430 Jinho Son Real-Time System Lab.

Frame counter: Achieving Accurate and Real-Time Link Estimation in Low Power Wireless Sensor Networks Daibo Liu, Zhichao Cao, Mengshu Hou and Yi Zhang.

Sun SPOT Wireless Sensors Networks José Jaime Ariza ISIS group (University of Málaga)

INTRODUCTION TO WIRELESS SENSOR NETWORKS

IHP: Innovation for High Performance Microelectronics

A Wireless Sensor Node SoC with a Profiled Power Management Unit for IR Controllable Digital Consumer Devices Dong-Sun Kim, Member, IEEE, Byung-Soo Kim,

Bluetooth Based Smart Sensor Network

Presentation transcript:

WaterWell Final Presentation  Athanasios Floros  Chen Huang  Gökhan Dogan  Manzoor Bahader  Tao Sun  Zhichao Cao Csd 2008 Fall

WaterWell Online Water Quality Management - CSD Fall 2008 Midterm Summary

WaterWell Online Water Quality Management - CSD Fall 2008 WaterWell Solution Online Water Quality Management

WaterWell Online Water Quality Management - CSD Fall STATEMENT PROBLE M

WaterWell Online Water Quality Management - CSD Fall 2008 Blantyre, Malawi

WaterWell Online Water Quality Management - CSD Fall 2008 Technology vs. Problem K.O WSN Sensors Sun SPOTs Solar Panel Automation Accurate Results Wide-Area Power Source

WaterWell Online Water Quality Management - CSD Fall 2008 Previous Work

WaterWell Online Water Quality Management - CSD Fall 2008 Reading Serial Data

WaterWell Online Water Quality Management - CSD Fall 2008 Testing The Connection Two Java Programs (NetBeans) –To read data from sensor through serial port, forward to base station and vice versa –To switch on & off the level converter (Sensor) through H0 pin

WaterWell Online Water Quality Management - CSD Fall 2008 Real-Life

WaterWell Online Water Quality Management - CSD Fall 2008 Consumption 3.3. POWER

WaterWell Online Water Quality Management - CSD Fall 2008 WaterWell System Host Station Send HELLO Synchronization Configuration Gathering data WSN Node Reading data from sensor Sending data to base station

WaterWell Online Water Quality Management - CSD Fall 2008 System Diagrams Sequence DiagramState Transition Diagram

WaterWell Online Water Quality Management - CSD Fall 2008 Power Consumption Issues Problems: Sustainability Sensors’ Power Solutions: Solar Panel Wake Up Mechanism Power Adjustment

WaterWell Online Water Quality Management - CSD Fall 2008 Wake-Up Mechanism

Wake-up Mechanism Sensor

WaterWell Online Water Quality Management - CSD Fall 2008 Link Quality Experiment PRR: Packet Received Ratio The real link quality Parameters: LQI: Link Quality Indicator RSSI: Received Signal Strength Indication CORR: Correlation Which one is the best? How many samples?

WaterWell Online Water Quality Management - CSD Fall 2008 Experiment Set-up SenderReceiver 1000 packets (1, 40, 80, 120 bytes) -31dBm 100 different distances

WaterWell Online Water Quality Management - CSD Fall 2008 LQI Results PRR grows with LQI increases

WaterWell Online Water Quality Management - CSD Fall 2008 SAMPLES 15 Samples: tradeoff between network overhead and LQI accuracy

WaterWell Online Water Quality Management - CSD Fall 2008 CONCLUSION Use LQI Use min. 15 Samples

Power Experiment SenderReceiver 500 packets (containing output power value) -32 to 31 dBm 7 different distances

OUTPUT POWER vs LQI LQI dbm -24 dbm

POWER ADJUSTMENT Base station helps SunSPOT to adjust output power Speed up negotiation: –Adjust power between 22 power steps –Dichotomy

WaterWell Online Water Quality Management - CSD Fall 2008 Aspect 4.4. Business

WaterWell Online Water Quality Management - CSD Fall 2008 BUSINESS Assessment Report B

WaterWell Online Water Quality Management - CSD Fall 2008 Nästa: Implementation Investigation Marco’s Tasks Design Documents T Solar Panel Business Opportunities Implementation Final Reports Testing

WaterWell Online Water Quality Management - CSD Fall 2008 Midterm Results  WSN offers many possibilities  Sun SPOT Rocks !  LQI is the best !  Min. 15 Samples  Deep Sleep Mode

WaterWell Online Water Quality Management - CSD Fall 2008 The Story of Lonely Machines  SunSPOT  90-FLT and Sensor Probes  eSerial converter

WaterWell Online Water Quality Management - CSD Fall 2008 SunSPOT

WaterWell Online Water Quality Management - CSD Fall 2008 Anatomy of a SunSPOT  Two types Base station Free Range devices  SunSPOT Parts Sensor Board Processor Board Battery

WaterWell Online Water Quality Management - CSD Fall FLT

WaterWell Online Water Quality Management - CSD Fall 2008 Sensor Probes  TDS, PH, mV, Turbidity, Conductivity, Dissolved oxygen and Temperature

WaterWell Online Water Quality Management - CSD Fall 2008 eSerial converter

WaterWell Online Water Quality Management - CSD Fall 2008  RS232 Interface  Connects SunSPOT & 90-FLT eSerial converter

WaterWell Online Water Quality Management - CSD Fall 2008 Schematic of the Connection

WaterWell Online Water Quality Management - CSD Fall 2008 How did we come together? Base Station Free Range SPOT Sensor Probes 90-FLT Meter

WaterWell Online Water Quality Management - CSD Fall 2008 We need Software  Software – Classes  Software – Communication  Software – System Life Loop

WaterWell Online Water Quality Management - CSD Fall 2008 Software-Classes  HostStation Class Runs on PC Data center and configure center  WSNNode Class Runs on free-range Sun SPOT Data fetcher and transmitter  Node Class Represent WSN nodes  Message Classes Carrier of radio signal Five types: Hello, Syn, Ack, Data, ConfTime

WaterWell Online Water Quality Management - CSD Fall 2008 Software-Communication

WaterWell Online Water Quality Management - CSD Fall 2008 Software-System Life Loop  Wake Up Mechanism

WaterWell Online Water Quality Management - CSD Fall 2008 We Consume Power  SunSPOT Power Consumption  System Power Consumption

WaterWell Online Water Quality Management - CSD Fall 2008 Sun SPOT Power Consumption  Power adjustment mechanism Adjust radio output power for saving energy  Sun SPOT power consumption experiment To test if output power affects whole power consumption a lot and packets Broadcast and Unicast In 0m distance With Max(31) and Min(-32) power SenderReceiver

WaterWell Online Water Quality Management - CSD Fall 2008 Sun SPOT Power Consumption Conf. BroadcastUnicast Transmission power packets packets packets packets -32 dbm mAh mAh mAh mAh +31 dbm mAh mAh mAh mAh  Limited energy is saved Radio consumes Besides, CPU, memory control, E-demoboard consumes energy  Power adjustment mechanism is unworthy

WaterWell Online Water Quality Management - CSD Fall 2008 System Power Consumption Conf.  Wake-up mechanism is the only way  Test objects Basestation Sun SPOT powered by PC Level Converter powered by Free-range Sun SPOT Only power consumption of Free-range Sun SPOT and 90-FLT meter is consıdered  Test scenario Test for 4 days continuously 60 measurements per day With and without wake-up mechanism

WaterWell Online Water Quality Management - CSD Fall 2008 System Power Consumption Conf.

WaterWell Online Water Quality Management - CSD Fall 2008 System Power Consumption Conf.  System life depends on Sun SPOT life  Normally, the system works for more than 3 weeks Sun SPOT and 90-FLT lives in days

WaterWell Online Water Quality Management - CSD Fall 2008 Features  System Life Lasts for approximately 3 weeks  Wake-up Mechanism Synchronization Periodically wake up

WaterWell Online Water Quality Management - CSD Fall 2008 Features Cont.  Automation No human interaction is needed  Node Feedback Node status: able to detect node failure Battery information: both Sun SPOT and 90-FLT

WaterWell Online Water Quality Management - CSD Fall 2008 Features Cont.  Packet Retransmission  MAC layer (unicast only) and Application layer  Cope with instability and abnormality of radio.  Fragmentation  MAC layer fragmentation always causes delay when deep sleeping.  Large packet is fragmented.  Fragment out of order.

WaterWell Online Water Quality Management - CSD Fall 2008 Market Overview Of WSN

WaterWell Online Water Quality Management - CSD Fall 2008 Customers in Malawi

WaterWell Online Water Quality Management - CSD Fall 2008 Whole Product

WaterWell Online Water Quality Management - CSD Fall 2008  The Swedish Environmental Protection Agency (SEPA)  Swedish University of Agricultural Sciences, Department of Environmental Assessments (SUAS)  Åbro to analyze the water quality for beer-brewing.  Alfa Laval to use in wastewater treatment and analyze the waste water. Potential Customers in Sweden

WaterWell Online Water Quality Management - CSD Fall 2008 How did we achieve ?  Website “Really excited to have my own place to post my latest activities.” Cao  Sub-Teams Member Rotation  Write it down! Deliverables  Walk the Extra Mile ! Scientific Paper

WaterWell Online Water Quality Management - CSD Fall Sec Recap.  Automated and Reliable  Sun SPOT battery is not sustainable  Wake-up Mechanism saves power  WSN is not mature yet  Happy New Year !

WaterWell Online Water Quality Management - CSD Fall 2008 Q & A