Strategizing Power Utilization within Intelligent Tags
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International Journal of P2P Network Trends and Technology (IJPTT) |  |
| © 2014 by IJPTT Journal | ||
| Volume - 4 Issue - 3 |
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| Year of Publication : 2014 | ||
| Authors : Dr. JKR Sastry , Dr. A. Vinya Babu |
Citation
Dr. JKR Sastry , Dr. A. Vinya Babu."Strategizing Power Utilization within Intelligent Tags". International Journal of P2P Network Trends and Technology (IJPTT), V4(3):11-16 May - Jun 2014, ISSN:2249-2615, www.ijpttjournal.org, Published by Seventh Sense Research Group.
Abstract
Power management within intelligent Tags is one of the most important issues that must be given with utmost importance as the Tags are driven by battery power and the longevity of the battery must be increased so as to reduce the requirement of reducing frequency of charging or replacing the battery. Intelligent tags have many built-in functions that are required for supporting many of the intelligent issues such as identification, locating the tags etc. Each built-in intelligence requires certain amount of power. An event taking place either internally or externally involves usage of a set of intelligent modules which all adds to the requirement of certain amount of power. Power management has a direct impact on the latency with which the intelligent functions can be supported. This paper presents some of the strategies for power saving when a set of relevant functions are to be activated keeping in view of power and latency reduction.
References
[1]. Alex Janek, Christian Steger1, Josef Preishuber-Pfluegl2 and Markus Pistauer2, 2007, "Lifetime Extension of Higher Class UHF RFID Tags using special Power Management Techniques and Energy Harvesting Devices", Dagstuhl Seminar Proceedings
[2]. Ankur Agarwal, Eduardo Fernandez, 2009, "System Level Power Management for Embedded RTOS: An Object Oriented Approach", International Journal of Engineering (IJE),. Vol. 3, Iss. 4, Pg. 12-19
[3]. Arjun Roy, Stephen M. Rumble, Ryan Stutsman, Philip Levis, David Mazi`eres, Nickolai Zeldovich, 2011, "Energy Management in mobile devices with cinder operating system" ACM Proceedings,
[4]. Craig Mathias, 2008, "A guide to Wi-Fi power-save technologies", http://www.networkworld.com/research/2008/051208-wireless-power-standards.html,
[5]. lesswatts.org, 2009, "Power reduction in wireless devices", http://www.lesswatts.org/tips/wireless.php,
[6]. ibridgenetwork.org, 2007, active-rfid-tag-power-optimization-architecture,
[7]. Kavita Deshmukh, Deepshikha Patel, Nitesh Gupta, Shiv Kumar, 2011, "Efficient Coding Mechanism for Low Power Consumption in Wireless Programmable Devices", International Journal of Soft Computing and Engineering (IJSCE), Vol. 2, Iss. 4, Pg. 45-54
[8]. Muhammad. A, Mazliham M.S, Shahrulniza.M, 2009, "Power Management for Portable Devices by using Clutter Based Information", IJCSNS International Journal of Computer Science and Network Security, Vol. 9 Iss. 4, Pg. 33-43
[9]. Marium Jalal Chaudhry, Sadia Murawwat, Farhat Saleemi, Sadaf Tariq, Maria Saleemi, Fatima Jalal Chaudhry, 2008, "Real-Time Dynamic Voltage Scaling for Low-Power Embedded Operating Systems" Power optimized Bluetooth communication”, IEEE,
[10]. Padmanabhan Pillai and Kang G. Shin, 2001, "Real-Time Dynamic Voltage Scaling for Low-Power Embedded Operating Systems", U.S. Air force Office of Scientific Research,
[11]. Xavier P´erez-Costa and Daniel Camps-Mur, 2007, "A Protocol Enhancement for IEEE 802.11 Distributed Power Saving Mechanisms", Volume 1- : LPC214x User Manual,
[12]. JKR Sastry, N. Venkatram, R. Deepika, LSS Reddy, 2012-7, "Efficient power management techniques for increasing the longevity of intelligent tags", International Transactions on Electrical, Electronics and Communication Engineering Vol. 2 Iss. 2, Pg. 21-25
[13]. JKR Sastry JKR, R.Deepika, 2012-8, "Software Architecture for implementing efficient power management techniques within Intelligent TAGS", International journal of Computing, Vol. 2 Iss. 3, Pg. 573-579
Keywords
Power reduction, PSM, CAM, Latency reduction, Intelligent Tag, power saving, Conserving battery discharge, battery saving, battery recharging