本研究所提出的高可靠度媒介存取控制層,經由實作於 IEEE 802.15.4 無線通 訊協定下所制定之實體層,可以看出相較於 IEEE 802.15.4 無線通訊協定所制定之 媒介存取控制層,能有效地提升傳輸成功率、平均封包傳輸時間與吞吐量,且隨 著網路節點數目增加,提升的幅度更加顯著。透過本研究的實驗結果分析,可以 看出每一個機制對各項指標的影響幅度,各項機制可以隨著應用面不同而做彈性 地取捨。
未來工作可在本研究上加上網路層與應用層進行開發與實際量測,透過實際 與本研究所開發的高可靠度媒介存取控制層媒合來進行資料封包的傳輸,來加強 驗證是否滿足高可靠度的需求。除了在往上建構網路層以及應用層兩層來加強驗 證媒介存取控制層的性能外,亦可增加像 Poisson Distribution 等測試方式,利用 隨機分布時間等方式來進行資料封包傳輸,這些為模擬網路性能常用的方法,若 能克服實作上之困難,增加這些測試,則可以使本研究的媒介存取控制層性能更 進一步被驗證。
參考文獻
D-Link 技術團隊。2005。無線區域網路技術白皮書。松崗資訊,文魁資訊股份有 限公司。
李俊賢。2006。無線感測器網路與 ZigBee 協定簡介。電信國家型計劃專刊。77:
5-10。
唐政。2004。802.11 無線網路通訊協定與應用。文魁資訊股份有限公司。
陳俊錩。2006。無線感測器之研製並應用於工廠馬達監測。碩士論文。臺北:國 立臺北科技大學電腦與通訊研究所。
陳純怡。2004。無線感測網路上時間同步協定之效能評估。碩士論文。桃園:國 立中央大學資訊工程研究所。
Abramson, N. 1970. The ALOHA System — Another Alternative for Computer Communications. Proceedings of the Fall Joint Computer Conference. Page(s): 281 – 285.
Akyildiz, I. F., W. Su, Y. Sankarasubramaniam, and E. Cayirci. 2002. A survey on Sensor Networks. IEEE Communication Magazine. Vol. 40. Page(s): 102 – 114.
Alonso-Roman, D., Celada-Funes, E., Asensio-Marco, C., and Beferull-Lozano, B.
2013. Improving reliability and efficiency of communications in WSNs under high traffic demand. 2013 IEEE Wireless Communications and Networking Conference (WCNC): MAC. Page(s): 268 – 273.
Balani, R. 2007. Energy Consumption Analysis for Bluetooth, WiFi and Cellular Networks. Available at:
http://nesl.ee.ucla.edu/fw/documents/reports/2007/PowerAnalysis.pdf. Accessed 13 October, 2013.
Baronti, P. and P. Pillai, V. Chook, S. Chessa, A. Gotta, and Y. F. Hu. 2007. Wireless Sensor Networks: A Survey on the State of the Art and the 802.15.4 and ZigBee Standards. Computer Communication. Vol. 30. Page(s): 1655 – 1695.
Bhatti, S., Carlson, J., Dai, H., Deng, J., Rose, J., Sheth, A., Shucker, B., Gruenwald, C., Torgerson, A., and Han, R. 2005. MANTIS OS: An Embedded Multithreaded Operating System for Wireless Micro Sensor Platforms. Mobile Networks and Applications. Vol. 10. Page(s): 563 – 579.
Chi, Q., Yan, H., Zhang, C., Pang, Z., Xu, L. D. 2014. A Reconfigurable Smart Sensor Interface for Industrial WSN in IoT Environment. IEEE Transactions on Industrial Informatics. Vol. 10. Page(s): 1417 – 1425.
Chen, D. and J. N. Laneman. 2006. Modulation and Demodulation for Cooperative Diversity in Wireless System. IEEE Transactions on Wireless Communication. Vol. 5.
Page(s): 1785 – 1794.
Culler, D., Estrin, D., and M. Srivastava. 2004. Overview of Sensor Networks. IEEE Computer Society. Vol. 37. Page(s): 41 – 49.
Deb, B., Bhatnagar, S., and Nath, B. 2001. A Topology Discovery Algorithm for
Sensor Networks with Applications to Network Management. Department of Computer Science, Rutgers University, Tech. Rep: DCS-TR-441, 2001.
Deb, B., Bhatnagar, S., and Nath, B. 2004. STREAM: Sensor Topology Retrieval at Multiple Resolutions. Telecommunication Systems. Vol. 26. Page(s): 285 – 320.
Doudou, M., Djenouri, D., and Badache, N. 2013. Survey on Latency Issue of Asynchronous MAC Protocols in Delay-Sensitive Wireless Sensor Networks. IEEE Communications Survey & Tutorials. Vol. 15. Page(s): 528 – 550.
Dunbabin, M., and Marques, L. 2012. Robots for Environmental Monitoring:
Significant Advancements and Applications. IEEE Robotics & Automation Magazine.
Vol. 19. Page(s): 24 – 39.
Durisic, M. P., Tafa, Z., Dimic, G., and Milutinovic, v. 2012. A Survey of Military Applications of Wireless Sensor Networks. Mediterranean Conference on Embedded Computing(MECO), 2012. Page(s): 196 – 199.
Gates, B. 1995. The Road Ahead. 1st ed. USA: Viking Books.
Geneva: International Organization for Standardization. 1996. Available at:
http://www.iso.org/iso/home/store/catalogue_tc/catalogue_detail.htm?csnumber=22797.
Accessed 13 October, 2013.
Geneva: ITU. 2005. The Internet of Things. Available at:
https://www.itu.int/wsis/tunis/newsroom/stats/The-Internet-of-Things-2005.pdf.
Accessed 13 October, 2013.
Germany: ETH Zürich. 2003. BTnodes - A Distributed Environment for Prototyping Ad Hoc Networks. Available at: http://www.btnode.ethz.ch. Accessed 13 October, 2013.
Gomez, C., and J. Paradells. 2010. Wireless Home Automation Networks: A Survey of Architectures and Technologies. IEEE Communication Magazine. Vol. 48. Page(s): 92 – 101.
He, T., Krishnamurthy, S., Stankovic, J. A., Abdelzaher, T., Luo, L., Stoleru, R., Yan, T., Gu, L., Hui, J. and Krogh, B. 2004. Energy-efficient surveillance system using wireless sensor networks. MobiSys '04 Proceedings of the 2nd international conference on Mobile systems, applications, and services. Page(s): 270 – 283.
Heinzelman, W. B., Murphy, A. L., Carvalho, H. S., and Perillo, M. A. 2004.
Middleware to Support Sensor Network Applications. IEEE Network. Vol. 18. Page(s):
6 – 14.
Heinzelman, W.R., Chandrakasan, A., and Balakrishnan, H. 2000. Energy-Efficient Communication Protocol for Wireless Microsensor Networks. The 33rd Annual Hawaii International Conference on System Sciences. Page(s): 1 – 10.
Huang Pei, Xiao Li, Matt W. Mutka, and Xi Ning. 2013. The Evolution of MAC Protocols in Wireless Sensor Networks: A Survey. IEEE Communications Survey &
Tutorials. Vol. 15. Page(s): 101 – 120.
IEEE Std 802.11-1997. 1997. Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specification. Page(s): 1 – 445.
IEEE Std 802.15.4-2011. 2011. IEEE Standard for Local and metropolitan area networks--Part 15.4: Low-Rate Wireless Personal Area Networks (LR-WPANs).
Page(s): 1 – 314.
Islam, K., Shen Weiming, and Wang Xianbin. 2012. Wireless Sensor Network Reliability and Security in Factory Automation: A Survey. IEEE Transactions on Systems, man, and Cybernetics-Part C: Applications and Reviews. Vol. 42 . Page(s):
1243 – 1256.
Jackson, C. 2005. Dynamic Sharing of Radio Spectrum: A Brief History. 1st IEEE International Symposium on New Frontiers in Dynamic Spectrum Access Networks.
Page(s): 445 – 466.
Kuorilehto, M., M. Hännikäinen, and T.D. Hämäläinen. 2005. A Survey of Application Distribution in Wireless Sensor Networks. EURASIP Journal on Wireless
Communication and Networking. Vol. 5. Page(s): 774 – 788.
Lazarescu, M. T. 2013. Design of a WSN Platform for Long-Term Environmental Monitoring for Iot Applications. IEEE Journal on Emerging and Selected Topics in Circuits and Systems. Vol. 3. Page(s): 45 – 54.
Lindsey, S., C. Raghavendra, and K. M. Sivalingam. 2002. Data Gathering Algorithms in Sensor Network Using Energy Metrics. IEEE Transactions on Parallel and
Distributed System. Vol. 13. Page(s): 924 – 935.
Lopez, H., Ruben, Novella, M., and Ignacio, J. 2011. Routing Design in Wireless Sensor Networks and a Solution for Healthcare Environments. IEEE Latin America Transactions. Vol. 9. Page(s): 408 – 414.
Luo Hanjiang, Wu Kaishun, Guo Zhongwen, Lin Gu, and Ni, L. M. 2012 Ship Detection with Wireless Sensor Networks. IEEE Transactions on Parallel and Distributed Systems. Vol. 23. Page(s): 1336 – 1343.
Mahalik, N. P. 2006. Sensor Networks and Configuration: Fundamentals, Standards, Platforms, and Applications. USA: Springer Publishing Company.
Mainwaring, A., Culler, D., Poladtre, J., Szewczyk, R., and Anderson. J. 2002. wireless sensor networks for habitat monitoring. WSNA '02 Proceedings of the 1st ACM
international workshop on Wireless sensor networks and applications. Page(s): 88 – 97.
Marrón, P. J., Minder, D., Lachenmann, A., and Rothermel, K. 2005. TinyCubus; An Adaptive Cross-Layer Framework for Sensor Networks. Information Technology. Vol.
47. Page(s): 87 – 97.
Matinez, K., Ong, R., and Hart, J. 2004. Glacsweb: a sensor network for hostile
environments. First Annual IEEE Communications Society Conference on Sensor and Ad Hoc Communications and Networks. Page(s): 81 – 87.
Philip L., Sam M., David G., Joseph P., Robert S., Alec W., Eric B., and David C. 2004.
The Emergence of Networking Abstractions and Techniques in Tinyos. Proceedings of the First Symposium on Networked System Networked System Design and
Implementation.
Qu Yonghua, Zhu Yeqing, Han Wenchao, Wang Jindi, and Ma Mingguo. 2014. Crop Leaf Area Index Observations With a Wireless Sensor Network and Its Potential for Validating Remote Sensing Products. IEEE Journal of Selected Topics in Applied Earth Observation and Remote Sensing. Vol. 7. Page(s): 431 – 444.
Rao, T. R., Balachander, D., Tiwari, N., and Prasad, M. V. S. N. 2013. Ultra-high frequency near-ground short-range propagation measurements in forest and plantation environments for wireless sensor networks. IET Wireless Sensor System. Vol. 3.
Page(s): 80 – 84.
Roberts, L. 1975. Aloha packet system with and without slots and capture. Computer Communication Review. Vol. 5. Page(s): 28 – 42.
Romer, K., and Mattern, F. 2004. The Design Space of Wireless Sensor Networks.
IEEE Wireless Communications. Vol. 11. Page(s): 54 – 61.
Seah, W. K. G., Z. A. Eu and H. P. Tan. 2009. Wireless sensor networks powered by ambient energy harvesting(WSN-HEAP)-Survey and challenges. 1st International Conference on Wireless Communications, Vehicular Technology, Information Theory and Aerospace and Electronic Systems. Page(s): 1 – 5.
Sheu Shiann-Tsong, Shih Yun-Yen, and Lee Wei-Tsong. 2009. CSMA/CF Protocol for IEEE 802.15.4 WPANs. IEEE Transactions on Vehicular Technology. Vol. 58. Page(s):
1501 – 1516.
Singh, S. and C. S. Raghavendra. 1998. PAMAS: Power aware multi-access protocol with signaling for ad hoc networks. ACM SIGCOMM Computer Communication Review. Vol. 28. Page(s): 5 – 26.
Song, H., Kim, D., Lee, K., and Sung, J. 2005. UPnP-Based Sensor Network Management Architecture. ICMU Conference, 2005.
Stallings, W. 2000. Local and Metropolitan Area Networks. 6th ed. NJ: Prentice Hall.
Stoianov, I., Nachman, L., Madden, S., Tokmouline, T., and Csail, M. 2007. PIPENET:
A Wireless Sensor Network for Pipeline Monitoring. 6th International Symposium on Information Processing in Sensor Networks. Page(s): 264 – 273.
Suriyachai, P., Roedig, U., and Scott, A. 2012. A Survey of MAC Protocols for Mission-Critical Applications in Wireless Sensor Networks. IEEE Communications Survey & Tutorials. Vol. 14. Page(s): 240 – 264.
Szewczyk, R., A. Mainwaring, J. Polastre, J. Anderson, and D. Culler. 2004. An Analysis of a Large Scale Habitat Monitoring Application. Proceedings of the Second ACM Conference on Embedded Networked Sensor Systems. Page(s): 214 – 226.
Tseng Fan-Hsun, Cho Hsin-Hung, Chou Li-Der, and Chao Han-Chieh. 2014. Efficient Power Conservation Mechanism in Spline Function Defined WSN Terrain. IEEE Sensor Journal. Vol. 14. Page(s): 853 – 864.
Tseng Yu-Chee, Ni Sze-Yao, and Shin En-Yu. 2003. Adaptive Approaches to Relieving Broadcast Storms in a Wireless Multihop Mobile Ad Hoc Network. IEEE Transactions on Computers. Vol. 52. Page(s): 545 – 557.
Taiwan: Wireless Sensor Network Center. 2007a. Super Node Datasheet. Available at:
http://www.wsnc.ntu.edu.tw/Files/SuperNode.pdf. Accessed: 13 October 2013.
Taiwan: Wireless Sensor Network Center. 2007b. Octopus II Datasheet. Available at:
http://www.wsnc.ntu.edu.tw/Files/Octopus--_0913_V1_2%20[----].pdf. Accessed: 13 October 2013.
USA: Atmel. 2012. 8-bit Atmel Microcontroller with 128KBytes In-System Programmable Flash. Available at:
http://www.atmel.com/dyn/resources/prod_documents/doc2467.pdf. Accessed: 13 October 2013.
USA: Berkeley. 2003. TinyDB: A Declarative Database for Sensor Networks. Available at: http://telegraph.cs.berkeley.edu/tinydb/overview.html. Accessed: 13 October 2013.
USA: Bloomberg L.P. 1999. Cover Story-21 Ideas for the 21st Century. Available at:
http://www.businessweek.com/1999/99_35/b3644024.htm. Accessed: 13 October 2013.
USA: Crossbow. 2008. Imote2 Datasheet. Available at:
http://wsn.cse.wustl.edu/images/e/e3/Imote2_Datasheet.pdf. Accessed: 13 October 2013.
USA: Crossbow. 2009. MICA Datasheet. Available at:
http://stomach.v2.nl/docs/Hardware/DataSheets/Sensors/MICA_data_sheet.pdf.
Accessed: 13 October, 2013.
USA: McKinsey Global Institute. 2013. Disruptive technologies: Advances that will transform life, business, and the global economy. Available at:
http://www.mckinsey.com/insights/business_technology/disruptive_technologies.
Accessed 26 June, 2013.
USA: MIT Auto-ID Center. 2002. White Paper: Integrating the Electronic Product Code (EPC) and the Global Trade Item Number (GTIN). Available at:
http://www2.wiwi.hu-berlin.de/is/internetoekonomie/downloads/rfid/EPC/MIT-AUTO ID-WH-004.pdf. Accessed 13 October, 2013.
USA: RFM. 2008. TR1000 Datasheet. Available at:
http://www.rfm.com/products/data/tr1000.pdf. Accessed 13 October, 2013.
USA: Rutgers, The State University of New Jersey. 2005. Wireless Sensor Networks Management. Available at:
http://www.research.rutgers.edu/~bdeb/sensor_networks.html. Accessed: 13 October 2013.
USA: Semtech. 2008. XE1205 Datasheet. Available at:
http://www.semtech.com/apps/filedown/down.php?file=xe1205.pdf. Accessed 13 October, 2013.
USA: Sentilla. 2006. Tmote-sky Datasheet. Available at:
http://www.eecs.harvard.edu/~konrad/projects/shimmer/references/tmote-sky-datasheet .pdf. Accessed: 13 October 2013.
USA: Technology Review. 2003. 10 Emerging Technologies That Will Change the World. Available at:
http://www.technologyreview.com/featured-story/401775/10-emerging-technologies-th at-will-change-the/. Accessed: 13 October 2012.
USA: Texas Instruments. 2009a. MSP430 16-bit Ultra-Low Power MCUs. Available at:
http://focus.ti.com/mcu/docs/mcuprodoverview.tsp?sectionId=95&tabId=140&familyI d=342. Accessed: 13 October 2013
USA: Texas Instruments. 2010. CC1021 Single Chip Low Power RF Transceiver for Narrowband Systems. Available at:
http://www.ti.com.cn/cn/lit/ds/swrs045c/swrs045c.pdf. Accessed 13 October, 2013.
USA: Texas Instruments. 2010. 2.4 GHz IEEE 802.15.4 / ZigBee-ready RF Transceiver.
Available at: http://www.ti.com/lit/ds/symlink/cc2420.pdf. Accessed 13 October, 2013.
USA: Texas Instruments. 2011. A True System-on-Chip Solution for 2.4-GHz IEEE 802.15.4 and ZigBee Applications. Available at:
http://www.ti.com/lit/ds/symlink/cc2530.pdf. Accessed 13 October, 2013.
USA: Texas Instruments. A True System-on-Chip Solution for 2.4-GHz IEEE 802.15.4 and ZigBee Applications. Available at: http://www.ti.com/lit/ds/symlink/cc2530.pdf.
Accessed 13 October, 2013.
USA: USC. 2004.Robomote. Available at: http://www-robotics.usc.edu/~robomote/.
Accessed 13 October 2013.
USA: ZigBee Alliance. 2011. ZigBee standards. Available at:
http://www.zigbee.org/About/AboutTechnology/Standards.aspx. Accessed 13 October 2013.
Wang Huiyong, Wang Jingyang, Huang Min. 2013. Building a Smart Home System with WSN and Service Robot. 2013 Fifth conference on Measuring Technology and Mechatronics Automation. Page(s): 353 – 356.
Xu, L., F. Yang, Y. Jiang, L. Zhang, and C. Feng. 2011. Variation of Received Signal Strength in Wireless Sensor Network. In “Proc. International Conference on Advanced Computer Control(ICACC)”. Page(s): 151 – 154.