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Normal Distribution on Energy Saving Problem for the Wireless Sensor Network Life on the Vacation Period

Yıl 2023, Sayı: 47, 67 - 72, 31.01.2023

Shkelqim Hajrulla , Taylan Demir , Loubna Ali , Nour Souliman

https://doi.org/10.31590/ejosat.1256040

Öz

Based on math operations, we can do some analytic approaches for the energy saving for the WSN life. We will study the vacation period time using numerical methods for studding the energy saving mechanism in analytic models. Several research papers have reported that the normal distribution of a random variable has an enormous contribution in analyzing and comparing the data with each other, making the process easier according to methods used or observing the tendencies of numerous occurrences in life applications. This paper focuses on analyzing two problems: the first one is the normal distribution and its special cases by solving real problems of WSN node operations and the second one is the application of standard normal distribution relate to saving energy during vacation time in a certain time interval. The goal of our work is to obtain the appropriate algorithm to minimize the risk of data loss during the network vacation period, which is associated with the organization of network node structures after this period time, and to maximize the battery life of individual sensors. For that, we will use math methods and based on probability distribution theory, we derive some distributions of the processing period duration from an arbitrary fixed time up to a variable time t. The analytic approach based on the conception of Laplace transform and the Lagrange method performs better than the previous results. We continue by examining them through detailed calculations and graphs. We compare the predicted energy saving and the average real energy.

Anahtar Kelimeler

Numerical Methods Lost Packets Time Charging Sensors Programming Complexity

Kaynakça

  • Kempa, W. M. (2019). Analytical model of a wireless sensor network (WSN) node operation with a modified threshold-type energy saving mechanism. Sensors, 19(14), 3114.
  • Pathan, A.S.K. (2011) "Security of Self-Organizing Networks: MANET, WSN, WMN, VANET; CRC", Press: Boca Raton, FL, USA.
  • Ruiz, L. B., Braga, T. R., Silva, F. A., Assunção, H. P., Nogueira, J. M. S., & Loureiro, A. A. (2005). "On the design of a self-managed wireless sensor network". IEEE Communications Magazine, 43(8), 95-102.
  • Loubna Ali, Shkelqim Hajrulla, Nour Souliman, "Reducing the Wireless Sensor Networks' delay by reducing program’s complexity and by using parallel processing mechanism", EMSJ journal ISSN 2522-9400
  • Heinzelman, W. R., Chandrakasan, A., & Balakrishnan, H. (2000, January). "Energy-efficient communication protocol for wireless microsensor networks". In Proceedings of the 33rd annual Hawaii international conference on system sciences (pp. 10-pp). IEEE.
  • Purohit, R., & Keswani, B. (2015). "Node mobility impact on Zone routing protocol", International Journal of Computer Applications, 975, 8887.
  • Hajrulla Sh. Bezati L. Demir. T, Desantila H., "Through Unimodular Matrix on SLE using LaTex", An Istanbul Meeting for World Mathematics, pg. 45-55, ISBN 978-605-67964-7-0.
  • Gou, H., & Yoo, Y. (2010, April). "An energy balancing LEACH algorithm for wireless sensor networks". In 2010 Seventh International Conference on Information Technology: New Generations (pp. 822-827). IEEE.
  • Tan, L., & Tang, S. (2016). "Energy harvesting wireless sensor node with temporal death: Novel models and analyses", IEEE/ACM Transactions on Networking, 25(2), 896-909.
  • Robert Keim (2020) "Introduction to Normal Distribution in Electrical Engineering", Technical Article All About Circuits, August 03.
  • Lee, D. H., & Yang, W. S. (2013). The N-policy of a discrete time Geo/G/1 queue with disasters and its application to wireless sensor networks. Applied Mathematical Modelling, 37(23), 9722-9731.
  • Li, J., Zhou, H. Y., Zuo, D. C., Hou, K. M., Xie, H. P., & Zhou, P. (2014). "Energy consumption evaluation for wireless sensor network nodes based on queuing Petri net", International Journal of Distributed Sensor Networks, 10(4), 262848.
  • Gou, H., & Yoo, Y. (2010, April). "An energy balancing LEACH algorithm for wireless sensor networks", In 2010 Seventh International Conference on Information Technology: New Generations (pp. 822-827). IEEE.

Normal Distribution on Energy Saving Problem for the Wireless Sensor Network Life on the Vacation Period

Yıl 2023, Sayı: 47, 67 - 72, 31.01.2023

Shkelqim Hajrulla , Taylan Demir , Loubna Ali , Nour Souliman

https://doi.org/10.31590/ejosat.1256040

Öz

Based on math operations, we can do some analytic approaches for the energy saving for the WSN life. We will study the vacation period time using numerical methods for studding the energy saving mechanism in analytic models. Several research papers have reported that the normal distribution of a random variable has an enormous contribution in analyzing and comparing the data with each other, making the process easier according to methods used or observing the tendencies of numerous occurrences in life applications. This paper focuses on analyzing two problems: the first one is the normal distribution and its special cases by solving real problems of WSN node operations and the second one is the application of standard normal distribution relate to saving energy during vacation time in a certain time interval. The goal of our work is to obtain the appropriate algorithm to minimize the risk of data loss during the network vacation period, which is associated with the organization of network node structures after this period time, and to maximize the battery life of individual sensors. For that, we will use math methods and based on probability distribution theory, we derive some distributions of the processing period duration from an arbitrary fixed time up to a variable time t. The analytic approach based on the conception of Laplace transform and the Lagrange method performs better than the previous results. We continue by examining them through detailed calculations and graphs. We compare the predicted energy saving and the average real energy.

Anahtar Kelimeler

Numerical Methods Lost Packets Time Charging Sensors Programming Complexity

Kaynakça

  • Kempa, W. M. (2019). Analytical model of a wireless sensor network (WSN) node operation with a modified threshold-type energy saving mechanism. Sensors, 19(14), 3114.
  • Pathan, A.S.K. (2011) "Security of Self-Organizing Networks: MANET, WSN, WMN, VANET; CRC", Press: Boca Raton, FL, USA.
  • Ruiz, L. B., Braga, T. R., Silva, F. A., Assunção, H. P., Nogueira, J. M. S., & Loureiro, A. A. (2005). "On the design of a self-managed wireless sensor network". IEEE Communications Magazine, 43(8), 95-102.
  • Loubna Ali, Shkelqim Hajrulla, Nour Souliman, "Reducing the Wireless Sensor Networks' delay by reducing program’s complexity and by using parallel processing mechanism", EMSJ journal ISSN 2522-9400
  • Heinzelman, W. R., Chandrakasan, A., & Balakrishnan, H. (2000, January). "Energy-efficient communication protocol for wireless microsensor networks". In Proceedings of the 33rd annual Hawaii international conference on system sciences (pp. 10-pp). IEEE.
  • Purohit, R., & Keswani, B. (2015). "Node mobility impact on Zone routing protocol", International Journal of Computer Applications, 975, 8887.
  • Hajrulla Sh. Bezati L. Demir. T, Desantila H., "Through Unimodular Matrix on SLE using LaTex", An Istanbul Meeting for World Mathematics, pg. 45-55, ISBN 978-605-67964-7-0.
  • Gou, H., & Yoo, Y. (2010, April). "An energy balancing LEACH algorithm for wireless sensor networks". In 2010 Seventh International Conference on Information Technology: New Generations (pp. 822-827). IEEE.
  • Tan, L., & Tang, S. (2016). "Energy harvesting wireless sensor node with temporal death: Novel models and analyses", IEEE/ACM Transactions on Networking, 25(2), 896-909.
  • Robert Keim (2020) "Introduction to Normal Distribution in Electrical Engineering", Technical Article All About Circuits, August 03.
  • Lee, D. H., & Yang, W. S. (2013). The N-policy of a discrete time Geo/G/1 queue with disasters and its application to wireless sensor networks. Applied Mathematical Modelling, 37(23), 9722-9731.
  • Li, J., Zhou, H. Y., Zuo, D. C., Hou, K. M., Xie, H. P., & Zhou, P. (2014). "Energy consumption evaluation for wireless sensor network nodes based on queuing Petri net", International Journal of Distributed Sensor Networks, 10(4), 262848.
  • Gou, H., & Yoo, Y. (2010, April). "An energy balancing LEACH algorithm for wireless sensor networks", In 2010 Seventh International Conference on Information Technology: New Generations (pp. 822-827). IEEE.
Toplam 13 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Shkelqim Hajrulla 0000-0003-0803-8268

Taylan Demir 0000-0001-7402-4468

Loubna Ali 0000-0002-6706-1890

Nour Souliman 0000-0002-6706-1890

Erken Görünüm Tarihi 31 Ocak 2023
Yayımlanma Tarihi 31 Ocak 2023
Yayımlandığı Sayı Yıl 2023 Sayı: 47

Kaynak Göster

APA Hajrulla, S., Demir, T., Ali, L., Souliman, N. (2023). Normal Distribution on Energy Saving Problem for the Wireless Sensor Network Life on the Vacation Period. Avrupa Bilim Ve Teknoloji Dergisi(47), 67-72. https://doi.org/10.31590/ejosat.1256040
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