Smart City Gnosys
Smart city article details
| Title | A New Innovative Sustainable Telecommunication Infrastructure For Efficient Internet Management Among Multiple Users Towards Smart Cities Development Mission |
|---|---|
| ID_Doc | 3059 |
| Authors | Sasikala P.; Mohanarathinam A.; Malathy S.; Devadharshini K.; Abirami N.; Priyadharsini E.J. |
| Year | 2023 |
| Published | 1st International Conference on Emerging Research in Computational Science, ICERCS 2023 - Proceedings |
| DOI | http://dx.doi.org/10.1109/ICERCS57948.2023.10433899 |
| Abstract | According to smart city associations, adequate telecommunication infrastructure is vital for efficient and effective operation of the business and industries as wells of residents of the smart cities. However current telecommunication infrastructures such as 3G/4G and LTE are rapidly reaching their limit and becomes failure to provide the service consistent quality of services levels due to increased traffic demands. In order to manage those challenges of the current telecommunication network, we propose a new innovative sustainable telecommunication infrastructure for efficient internet management among the multiple users towards smart cities development mission. Due to advent of optical fibres with efficient transceivers and amplifier, telecommunication infrastructure reaches the sustainability in achieving the consistent quality of the services. Further user interface is deployed on user end to manage and control the devices to obtain the sphere of internet into the current telecommunication infrastructure. It is highly efficient in reducing the increase traffic demand to the wifi routers and towers to establish smart city legacy standard. Proposed transceiver-based architecture with optical fibre is an innovative paradigm employed in electric transmission lines, street light, overhead electric lines in railway lines and median in the highway. Those medium acts as channel for data transfer with high-speed connectivity. Transceiver acts as sensor module to acquire the data and transmit the data to the receiver using short path determination technique in the base station or control unit. In this paradigm, base station is employed to control and manage the channels of the network. Amplifier incorporated with transceiver on end device eliminate data transmission limit. Experimental analysis of the proposed framework is evaluated on various aspects. In that internet speed of 1TB and higher can be achieved in each mobile device or vehicle devices in remote locations. Sphere of internet is attained with loss of signal strength. Particular prototype can be employed to web 3.0. Finally, it produces high data throughput and less overhead or handoff on compared with conventional cellular networks. © 2023 IEEE. |
| Author Keywords | Base Station; Control and Management; Internet of Things; Smart Cities; Telecommunication Network; Transceiver |
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