Yagi Antennas
Antennas that are used in the processing of the data transmitting incudes the fact that the data that is to be transmitted and received are done with the help of the antennas. This technology also helps in understanding of the processing that leads to the completion of the data management. This is the major reason that the implementation of antennas acts beneficial to the processing of the data transmission and receiving. In case of considering the mid-range antennas, Yagi antennas, Cellular antennas and the Horn antennas are the most important antennas are used to the highest extent.
Yagi antennas are the most cost efficient antennas that are present in today’s society. This is due to the fact that the architectural cost that is incurred in the completion of the antenna is respectively lower than the cost of the other antennas that are present in the market. This helps in understanding the proposition and the reason of using Yagi antennas (Hall, 2014). Yagi antennas also enjoys the efficient functioning of the antenna as the prohibition will include the lobes in the functioning of the lobes that are present in the antenna.
Advantage: The main advantage that is present in the antenna is that the lobes that are present in this antenna are small in nature and this is the main reason that the data management that is performed in very efficient due to the fact that the lobes are small in size and this leads to the fact that the data management is not performed with the help of the lobes that are present on the antenna. Another benefit that the users enjoy is that the functioning of the antenna is unidirectional in nature, leading to the fact that the proficiency of the entire project increases and this is the only reason that leads to the better functioning of the antenna (Joh & Ryoo, 2015).
Disadvantage: The main disadvantage of antennas is that the sensitivity of the antennas are very high. This is the only reason that the Yagi antenna is not used in a broad scale.
Cellular antenna
Cellular antenna are one of the most important antennas that are present in the processing of data transmission. This is due to the reason that only a cellular antenna can transmit and receive signals. This acts as the primary antennas it finds its usage in day to day life (Deering & Hinden, 2017).
Advantage: the main advantage of this antenna type is that of the antennas. This is the major reason that leads to the e connectivity us improved on using this kind of antenna. This antenna also helps in implementing the 4G and 5G technology as it helps in better connectivity of the networks. This is the sole reason that the usage of the Cellular antenna has been increasing. Another advantage that the cellular antenna provides is that the data terminologies that are used in the basic antennas are also used here (Jover, 2016).
Disadvantage of Cellular antenna: the main disadvantage of a cellular antenna is that the prosecution of the cellular antenna is very costly. Despite the advantages that are present in the functioning of the cellular antenna, the cost that is incurred in building the framework of the cellular antenna is very high. Another major problem is that the antennas are very prone to the external noises and this is the reason that the input that is provided in the antenna gets distorted.
Cellular Antennas
The main function of horn antenna is to check the fact that the processing of data management is done in an efficient way. This is performed with the help of induction of electromagnetic bands. This is the major reason that the data transcription is done in an efficient way. Flaring networking is used in the prosecution of the project that is undertaken by the horn antenna.
Advantage: the built architecture of a horn antenna is very easy and simplified. This is one of the reasons that allows better handing of the antenna. This also includes the fact that operation of the antenna is also easy in nature and this is the main reason that the prosecution of this antenna is used in a global margin
Disadvantage: Flare angle is present in the prosecution of the data management and this is the main reason that the execution of the transmission of the data because the prosecution of the data is that the fare angle that is implemented is very low and this is the reason that the execution of the task is not done properly.
From the above discussion it can be concluded that the cellular antenna will be used in the recent future and this antenna is the most efficient antenna.
Protocols that are required for the completion of the project are as follows: –
- Internet protocol: Internal protocol is one of the major reason that deals with the methodology regarding the failure of the completion of the task. In case the task that is being processed and the processing gets failed, with the help of the Internet protocol, it gets easier for the user to regain the data that is lost. Another major advantage is that the projection of the data management is performed with the help of the new files that are to be transmitted can be inserted during the completion of the projection and this can be done during the completion the previous project. This leads to the fact that the data processing can be completed with the better efficiency. The major disadvantage that is present in this system is that the completion of data management can be done with the help of the data that was initially present in the data centre of the internet protocol. Despite the fact that the data that is stored is deleted, the imposters can gain access to the data that is present.
- Li Fi: Li Fi is also termed as Light Fidelity. Light Fidelity also helps in completion of the processing of the data managing includes the fact that the processing of the wireless communication can be performed with utmost efficiency. This is the most important aspect that the prosecution f the data management gets better and the prosecution of the entire project gets easier in nature. The only problem that it has is that inn case of in the presence of the low light the entire efficiency of the antenna decreases and this is the major reason that the usage of Light Fidelity is not made globally (Coupland & Serban, 2014). Another issue is that the framework of the Light Fidelity is not very robust in nature.
- 5G protocol: 5G protocol is the highest emerging protocol among all the protocols present in the execution of the projects. This is due to the fact that the fastest connectivity that is present in the protocol industry. This is the main reason that the usage of 5G networking is used in the processing of the data management. This is the main reason that the processing of the data centre is very efficient in nature. The processing of the 5G networking ensures the fact that speed of connectivity is much higher than that of the 4G connectivity. This is the major reason of using 5G protocol system. Despite all the advantages that are resent in the 5G networking system, the major disadvantages that rev present in the 5G network is that the connectivity range of 5G network is very low. After the introduction if the 5G technology it is seen that there has been an extinction if the 2G and 3G networking system (Bilgin & Gungor, 2014). This is the reason that the usage of the 5G protocol has not emerged. This is the main reason that the projection of the data management
“An architecture for software-defined wireless networking. IEEE Wireless Communications” mainly discusses about the software-defined wireless networking functioning. This is the only reason that the processing of the software-defined wireless networking is conceptually analysed. This journal also focuses on the framework and infrastructure of the software-defined wireless networking. This is the main reason that this journal has gained importance. This helps in understanding the fact that the prosecution of the data centre is done utmost efficiency. This journal also discusses about the functioning of the software-defined wireless networking. This journal also helps in understanding the basic terminologies of the project for conceptual understanding of the business.
“Software Defined Wireless Networks: A Survey of Issues and Solutions” mainly discusses about the present, future and past prosecutions of the software-defined wireless networking. This leads to the fact that the data termination is used for the analysis of the growth in the technologv regarding the software-defined wireless networking. This journal also discusses about the processing of the data management. This leads to the fact that a better understanding of the subject i made by the researcher. This journal also states the limitation that are present in the software-defined wireless networking devices. This journal also states the process by which the software-defined wireless networking is implemented in the devices for increasing their efficiency.
References
Bilgin, B. E., & Gungor, V. C. (2014). Performance comparison of IEEE 802.11 p and IEEE 802.11 b for vehicle-to-vehicle communications in highway, rural, and urban areas. International Journal of Vehicular Technology, 2014.
Coupland, T., & Serban, G. (2014). U.S. Patent No. 8,878,740. Washington, DC: U.S. Patent and Trademark Office.
Deering, S., & Hinden, R. (2017). Internet protocol, version 6 (IPv6) specification (No. RFC 8200).
Hall, R. J. (2014). A Geocast Based File Transfer Protocol. In MILCOM (pp. 150-156).
Han, S., Chih-Lin, I., Xu, Z., & Rowell, C. (2015). Large-scale antenna systems with hybrid analog and digital beamforming for millimeter wave 5G. IEEE Communications Magazine, 53(1), 186-194.
Joh, H., & Ryoo, I. (2015). A hybrid Wi-Fi P2P with Bluetooth low energy for optimizing smart device’s communication property. Peer-to-Peer Networking and Applications, 8(4), 567-577.
Jover, R. P. (2016). LTE security, protocol exploits and location tracking experimentation with low-cost software radio. arXiv preprint arXiv:1607.05171.
Malicki, J. J., & Johnson, C. A. (2017). The cilium: cellular antenna and central processing unit. Trends in cell biology, 27(2), 126-140.
NgNguyen, P. T., Abbosh, A., & Crozier, S. (2014). Wideband and compact quasi-Yagi antenna integrated with balun of microstrip to slotline transitions. Electronics Letters, 49(2), 88-89.
Oksar, I. (2014). A Bluetooth signal strength based indoor localization method. In Systems, Signals and Image Processing (IWSSIP), 2014 International Conference on (pp. 251-254). IEEE.
Rangisetti, A. K., & Tamma, B. R. (2017). Software Defined Wireless Networks: A Survey of Issues and Solutions. Wireless Personal Communications, 97(4), 6019-6053. doi: 10.1007/s11277-017-4825-8.
Sun, H., Guo, Y. X., He, M., & Zhong, Z. (2013). A dual-band rectenna using broadband Yagi antenna array for ambient RF power harvesting. IEEE Antennas and Wireless Propagation Letters, 12, 918-921.
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