PROMETHEUS Intelligent Multi-Stage Energy Transfer System for Near Perpetual Sensor Networks Xiaofan JiangJoseph PolastreDavid Culler Electrical Engineering.

Slides:



Advertisements
Similar presentations
TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST
Advertisements

555 Timer 555 Timer Digital Electronics TM 1.2 Introduction to Analog
Bellwork If you roll a die, what is the probability that you roll a 2 or an odd number? P(2 or odd) 2. Is this an example of mutually exclusive, overlapping,
Electrónica de Potência © 2008 José Bastos Chapter 2 Power Semiconductor Switches: An Overview 2-1 Chapter 2 Overview of Power Semiconductor Devices Introduction.
1 Copyright © 2010, Elsevier Inc. All rights Reserved Fig 2.1 Chapter 2.
1 Chapter 40 - Physiology and Pathophysiology of Diuretic Action Copyright © 2013 Elsevier Inc. All rights reserved.
Telos Fourth Generation WSN Platform
By D. Fisher Geometric Transformations. Reflection, Rotation, or Translation 1.
Business Transaction Management Software for Application Coordination 1 Business Processes and Coordination.
CHARGING SYSTEMS Induced Voltage AC Charging Systems
Energy-Efficient Distributed Algorithms for Ad hoc Wireless Networks Gopal Pandurangan Department of Computer Science Purdue University.
and 6.855J Cycle Canceling Algorithm. 2 A minimum cost flow problem , $4 20, $1 20, $2 25, $2 25, $5 20, $6 30, $
1 Introduction to Transportation Systems. 2 PART I: CONTEXT, CONCEPTS AND CHARACTERIZATI ON.
MeDON meeting 09 mars IFREMER PROGRESS REPORT WP 3.5 dev & fabrication of the proof of concept architecture and description electronics and sofware.
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
0 - 0.
ALGEBRAIC EXPRESSIONS
DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.
MULTIPLYING MONOMIALS TIMES POLYNOMIALS (DISTRIBUTIVE PROPERTY)
ADDING INTEGERS 1. POS. + POS. = POS. 2. NEG. + NEG. = NEG. 3. POS. + NEG. OR NEG. + POS. SUBTRACT TAKE SIGN OF BIGGER ABSOLUTE VALUE.
MULTIPLICATION EQUATIONS 1. SOLVE FOR X 3. WHAT EVER YOU DO TO ONE SIDE YOU HAVE TO DO TO THE OTHER 2. DIVIDE BY THE NUMBER IN FRONT OF THE VARIABLE.
SUBTRACTING INTEGERS 1. CHANGE THE SUBTRACTION SIGN TO ADDITION
MULT. INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.
FACTORING Think Distributive property backwards Work down, Show all steps ax + ay = a(x + y)
Addition Facts
Electricity and Magnetism
ZMQS ZMQS
A) LC circuits and Oscillation Frequency
Photo Composition Study Guide Label each photo with the category that applies to that image.
BT Wholesale October Creating your own telephone network WHOLESALE CALLS LINE ASSOCIATED.
INFORMATION TECHNOLOGY, THE INTERNET, AND YOU
It all started simple…. One Alternator One Battery One Starter Motor.
Test on Input, Output, Processing, & Storage Devices
Elements of Computing Systems, Nisan & Schocken, MIT Press, 2005, Chapter 1: Boolean Logic slide 1www.idc.ac.il/tecs Chapter 1: Boolean.
Parasol and GreenSwitch: Managing Datacenters Powered by Renewable Energy Íñigo Goiri, William Katsak, Kien Le, Thu D. Nguyen, and Ricardo Bianchini Department.
© S Haughton more than 3?
1 Directed Depth First Search Adjacency Lists A: F G B: A H C: A D D: C F E: C D G F: E: G: : H: B: I: H: F A B C G D E H I.
Twenty Questions Subject: Twenty Questions
Linking Verb? Action Verb or. Question 1 Define the term: action verb.
Energy & Green Urbanism Markku Lappalainen Aalto University.
EE 4BD4 Lecture 15 Strain ( force) Gauges, pressure sensors and Load Cells 1.
Past Tense Probe. Past Tense Probe Past Tense Probe – Practice 1.
This, that, these, those Number your paper from 1-10.
Lecture 10: RL & RC Circuits Nilsson & Riedel ENG17 (Sec. 2): Circuits I Spring May 1, 2014.
Roy Freeland President, Perpetuum Ltd
Addition 1’s to 20.
25 seconds left…...
True or False? 20 questions.
True or False? 20 questions.
Test B, 100 Subtraction Facts
Week 1.
We will resume in: 25 Minutes.
1 Unit 1 Kinematics Chapter 1 Day
How Cells Obtain Energy from Food
Chapter 30 Induction and Inductance In this chapter we will study the following topics: -Faraday’s law of induction -Lenz’s rule -Electric field induced.
Electric Power Distribution
1 ECE 776 Project Information-theoretic Approaches for Sensor Selection and Placement in Sensor Networks for Target Localization and Tracking Renita Machado.
Network and Systems Laboratory nslab.ee.ntu.edu.tw Jay Taneja, JaeinJeong, and David Culler Computer Science Division, UC Berkeley IPSN/SPOTS 2008 Presenter:
PROMETHEUS Intelligent Multi-Stage Energy Transfer System for Near Perpetual Sensor Networks Xiaofan JiangJoseph PolastreDavid Culler Electrical Engineering.
Wireless Sensor Network. A wireless sensor network (WSN) is a wireless network consisting of spatially distributed autonomous devices using sensors to.
7/9/2007 AIIT Summer Course - D# 1 Wireless Embedded Systems and Networking Foundations of IP-based Ubiquitous Sensor Networks Micro-Power Systems David.
Design and Analysis of Micro-Solar Power Systems for Wireless Sensor Networks Jaein Jeong with Xiaofan Jiang and David Culler Computer Science, UC Berkeley.
ZebraNet Hardware Design Experiences in ZebraNet Presented by Zuhal Tepecik.
Product Engineering Processes Battery Primer A short battery primer Handbook of batteries, Linden and Reddy.
MICRO-LEVEL ENERGY HARVESTING Prakash Hiremath. M 1DA06EC061.
Maieutic Parataxis.
EECS 373 Energy Harvesting David Cesiel Jakob Hoellerbauer
Energy Provision and Storage for Pervasive Computing
Presentation transcript:

PROMETHEUS Intelligent Multi-Stage Energy Transfer System for Near Perpetual Sensor Networks Xiaofan JiangJoseph PolastreDavid Culler Electrical Engineering Department University of California, Berkeley Computer Science Department University of California, Berkeley

2 IPSN 2005 A Typical Solar Powered Sensor Node Charging Circuit Voltage Regulation DAYNIGHT A Batterys Perspective ENERGY DAY Shallow Depth of Discharge Medium Depth of Discharge

3 IPSN 2005 Energy Storage Element Designed for Pulsing Applications Is it enough? Supercapacitor Medium Capacity High Leakage Infinite recharge cycles Rechargeable Battery High Capacity Low Leakage recharge cycles vs

4 IPSN 2005 Multi-Stage Inefficient and complex hardware? NO! Simple and efficient hardware Complete and powerful control using software AND Intelligent

5 IPSN 2005 Architecture

6 IPSN 2005 Environmental Energy Solar Characteristics Sizing considerations Typically 18mW/cm2 under direct sunlight Vibration / kinetics Sound / wave Heat

7 IPSN 2005 Wireless Sensor Node Duty cycle Intelligence – self-aware of power levels and able to exert control Ultra-low power – Telos Low operating voltage

8 IPSN 2005 The Larger the Better? NO!

9 IPSN 2005 Secondary Buffer Li+ vs NiMH Direct from environment vs from primary buffer Dedicated charging chip vs software+simple hardware

10 IPSN 2005 Case Study: Prometheus

11 IPSN 2005 Control Loop and Charging by Software Sensing ADC Piggy-back Voltage divider trade- off Actuation uC I/O Digital switch Charging Dedicated charging chip? MOS switch vs Digital Switch DC/DC current limiting

12 IPSN 2005 Temperature Compensation

13 IPSN 2005 Driver PROMETHEUS DRIVER piggy-backed on application active duty cycle 1. if TempV > BattV = BattV (TempV 2.2) 3. if CapV < SwitchCap = FALSE 5. if CapV > SwitchCap = TRUE 7. if CapV > 4.4 and BattV < ChargeBatt = TRUE 9. if CapV < ChargeBatt = FALSE 11. call Radio.send(STATS)

14 IPSN 2005 Duty-Cycle Adaptation

15 IPSN 2005 Results

16 IPSN 2005 Conclusion Multi-stage + simple hardware + software == Perpetual operation

17 IPSN 2005 Future Work Deployment of 1500 nodes equipped with Prometheus for long term observation Questions

18 IPSN 2005 Energy - Fundamental Limitation of Sensor Networks How long could current sensor networks survive without human intervention? 2 to 3 years Why? Limiting factor storage device

19 IPSN 2005 Multi-Stage and Intelligent - Environmental energy unpredictable buffer battery recharge cycles - Sensor nodes pulses storage designed for pulsing applications not batteries - Sensor nodes uC brain can adapt All these points to … Reduce stress on critical path components Intelligent

20 IPSN 2005 Primary Buffer Medium Capacity High Leakage Infinite recharge cycles High Capacity Low Leakage recharge cycles vs

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.