Análisis del número de transmisiones de preámbulo necesario para incrementar la probabilidad de acceso satisfactorio en despliegues de comunicación masiva IoT celular
In the challenging scenario of cellular IoT massive communications, where connectivity plays a crucial role, strategies are being explored to enhance the probability of access efficiently, thereby contributing to a more robust and effective connectivity in this dynamic environment. This study analyz...
में बचाया:
| मुख्य लेखक: | |
|---|---|
| स्वरूप: | bachelorThesis |
| भाषा: | spa |
| प्रकाशित: |
2023
|
| विषय: | |
| ऑनलाइन पहुंच: | http://dspace.unach.edu.ec/handle/51000/12159 |
| टैग: |
टैग जोड़ें
कोई टैग नहीं, इस रिकॉर्ड को टैग करने वाले पहले व्यक्ति बनें!
|
टैग जोड़ें | सारांश: | In the challenging scenario of cellular IoT massive communications, where connectivity plays a crucial role, strategies are being explored to enhance the probability of access efficiently, thereby contributing to a more robust and effective connectivity in this dynamic environment. This study analyzes the number of preamble transmissions necessary to increase the probability of successful access. In this context, how to strategically adjust and determine the number of preamble transmissions to enhance access efficiency in environments with multiple IoT devices is investigated. Through the use of simulations in MATLAB, multiple test scenarios were conducted, varying traffic load from moderate traffic conditions to intense congestion situations. During this process, the probability of successful access was evaluated based on the number of preamble transmissions. Various configurations and parameters were examined, with particular attention to the number of preamble transmissions, aiming to identify how this factor impacts the probability of successful access. The results revealed that an optimal number of preamble transmissions exists that maximizes the probability of successful access in deploying massive cellular IoT communications. The results and conclusions derived from this analysis provide comprehensive insight into optimal strategies for increasing the probability of successful access in massive cellular IoT communications deployments, thus contributing to the advancement and optimization of connectivity in large-scale IoT environments. |
|---|