Author : Rajesha N 1
Date of Publication :7th June 2016
Abstract: Environment checking is utilized to distinguish crustal developments, approaching tidal waves, contamination (global warming), an Earth-wide temperature boost, and numerous different truths that are committed to influence human lives. Sensor networks for environment observing can comprise of segment and/or floor sensors, conceivably associated with berthed floats giving integration back to the region. When all is said in done, these sensors are extravagant. Sensor network architecture is a going fordependent point of comparision. Models/Algorithms that were proposed for remote sensor systems are appropriate for this inventive atmosphere, along with can't be connected it with no varies otherwise still a totally innovative invent. The main principle implementations of sensor networks are region upgrade as well as checking the encompassing environment.
Reference :
-
[1] Dunkels a, Gronvall b and voigtt.contiki – a lightweight and flexible operating system for tiny systemed sensors. In LCN ’04: Proceedings of the 29th Annual IEEE International Conference on Local Computer Systems (Washington, DC, USA, 2004), IEEE Computer Society, pp. 455–462
[2] Chen c, Chen y, Tu y yang s and chou p, EcoSpire: an application development kit for an Ultra-Compact wireless sensing system. Embedded Systems Letters, IEEE 1, 3 (2009), 65
3] Dunkels aschmidt, o voigt t and ali m, Protothreads: simplifying event-driven software of memory-constrained embedded systems. In SenSys ’06 (New York, NY, USA, 2006), ACM, pp. 29–42
[4] Yu-Ting Chen, Ting-Chou Chien, Pai H. Chou,Enix: A Lightweight Dynamic Operating System for Tightly Constrained Wireless Sensor Platforms,SenSys’10, November 3–5, 2010
[5] Shah Bhatti, James Carlson, Hui Dai, Jing Deng, Jeff Rose, AnmolSheth, Brian Shucker,Charles Gruenwald, Adam Torgerson, Richard Han, MANTIS OS: An Embedded Multithreaded Operating System for Wireless Micro Sensor Platforms, ACM Kluwer Mobile Systems & Applications (MONET) Journal, Special Issue on Wireless Sensor networks, August 2005
[6] Qing Cao, Tarek Abdelzaher, John Stankovic, Tian He, LiteOS, A Unix-like Operating System and Software PlatformforWireless Sensor networks
[7] Hojung Cha, Sukwon Choi, Inuk Jung, Hyoseung Kim, Hyojeong Shin, JaehyunYoo, Chanmin Yoon, RETOS: Resilient, Expandcapable, and Threaded Operating System for Wireless Sensor networks,IPSN’07, April 25-27, 2007
[8] Adam Dunkels, NiclasFinne, Joakim Eriksson, Thiemo Voigt, Range-Time Dynamic Linking for Reprogramming Wireless Sensor networks, SenSys'06, November 1–3, 2006
[9] Lin Gu, John A. Stankovic, t-kernel: Providing Relicapable OS Support to Wireless Sensor networks, SenSys’06, November 1–3, 2006
[10] Kevin Klues, Chieh-Jan Mike Liang, JeongyeupPaek, RazvanMusaloiu-E., Philip Levis, Andreas Terzis, Ramesh Govindan, TOS Threads: Thread-safe and Non-Invasive Preemption in TinyOS, SenSys’09, November 4–6, 2009
[11] Luiz Filipe M. Vieira, Uichin Lee and Mario Gerla, Phero-Trail: A Bio-Inspired Locality service for Mobile Underwater Sensor networks, IEEE journal on selected localitys in communications, vol. 28, no. 4, may 2010
[12] Nicolas Tsiftes, Adam Dunkels, Zhitao He, Thiemo Voigt, Enabling Large-Scale Storage in Sensor networks with the Coffee File System, IPSN’09, April 13–16, 2009
[13] Philip Levis, Sam Madden, Joseph Polastre, Robert Szewczyk, Kamin Whitehouse, Alec Woo, David Gay, Jason Hill, Matt Welsh, Eric Brewer and David Culler, TinyOS: An Operating System for Sensor networks
[14] Philip Levis and David Culler, Mate: A Tiny Virtual Machine for Sensor networks
[15] Ramesh Yerraballi, Real-Time Operating Systems: An Real time Review
[16] RakeshTrivedi, DarshilModi, NehalParmar, BUILD APPLICATIONS ON LINUX RTOS, International Journal on Recent and Technology Trends in Computing and Communication, Volume: 1, Issue: 4, 207 – 211