An Artificial Intelligence-Based Quorum System for the Improvement of the Lifespan of Sensor Networks

Ponnan, Suresh; Saravanan, A.; Iwendi, Celestine; Ibeke, Ebuka; Srivastava, Gautam

doi:10.1109/jsen.2021.3080217

Cited by 32 publications

(13 citation statements)

References 36 publications

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“…Ponnan et al [6] presented a Detection and Replacement of Failing Node (DRFN) method for the preservation of connection by performing a replacement chain in accordance with a distributed algorithm for the purpose of maintaining connectivity. When it comes to optimising the variables that are used to calculate the weight of a node, an optimization technique must be used in order to achieve success.…”

Section: Literature Surveymentioning

confidence: 99%

An Optimal Cluster Head and Gateway Node Selection with Fault Tolerance

Rahul¹,

Kaarthick²

2023

Intelligent Automation &Amp; Soft Computing

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Section: Literature Surveymentioning

confidence: 99%

An Optimal Cluster Head and Gateway Node Selection with Fault Tolerance

Rahul¹,

Kaarthick²

2023

Intelligent Automation &Amp; Soft Computing

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“…The e-nose system's hardware includes a Gizduino 1281, a Raspberry Pi 3 Model B, a 20x4 LCD screen, seven MQ gas sensors, and one temperature/humidity sensor. The Artificial Neural Network data ( 24 , 25 ) is trained using Stochastic Gradient Descent and the Back Propagation technique. The sensor chamber is positioned underneath the tomato-based Filipino food for simple detection of the gas sensors generated by the cuisine.…”

Section: Literature Reviewmentioning

confidence: 99%

An Artificial Intelligence Approach Toward Food Spoilage Detection and Analysis

Sonwani

Bansal

Alroobaea

et al. 2022

Front. Public Health

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Aiming to increase the shelf life of food, researchers are moving toward new methodologies to maintain the quality of food as food grains are susceptible to spoilage due to precipitation, humidity, temperature, and a variety of other influences. As a result, efficient food spoilage tracking schemes are required to sustain food quality levels. We have designed a prototype to track food quality and to manage storage systems at home. Initially, we have employed a Convolutional Neural Network (CNN) model to detect the type of fruit and veggies. Then the proposed system monitors the gas emission level, humidity level, and temperature of fruits and veggies by using sensors and actuators to check the food spoilage level. This would additionally control the environment and avoid food spoilage wherever possible. Additionally, the food spoilage level is informed to the customer by an alert message sent to their registered mobile numbers based on the freshness and condition of the food. The model employed proved to have an accuracy rate of 95%. Finally, the experiment is successful in increasing the shelf life of some categories of food by 2 days.

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“…The scheme proposed in [20] used RSA and RC4 to generate a key, which achieves higher security in the image. Recently, there have been data aggregation optimizations, for example, using a hybrid metaheuristic algorithm, i.e., a whale optimization algorithm (WOA) and simulated annealing (SA) algorithm, to select the optimal CH in an loT network cluster [21]; optimizations based on LSTM models [22]; and reducing network latency by increasing time slots and reducing the power consumption through weighted load balancing [23] (Table 1).…”

Section: Related Workmentioning

confidence: 99%

ES-PPDA: an efficient and secure privacy-protected data aggregation scheme in the IoT with an edge-based XaaS architecture

Chen

Jiang

2022

J Cloud Comp

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In an Internet of Things (IoT) system based on an anything as a service (XaaS) architecture, data are uploaded from heterogeneous nodes in a nonstandardized format and aggregated on the server side. Within this data-intensive architecture, privacy preservation is one of the most important issues. In response to this concern, there are numerous privacy-protection data aggregation (PPDA) solutions available for various IoT applications. Because of the limited resources of intelligent IoT devices, traditional PPDA cannot meet practical privacy and performance needs. To tackle this challenge, we provide a more efficient and secure PPDA solution that guarantees data security and integrity through Paillier homomorphic encryption and online/offline signing technology. Detailed security analysis shows that our system is unpredictable under a chosen message attack, and the data integrity may be guaranteed under the assumption of q-strong Diffie-Hellman (Q-SDH). We choose an M/G/1 priority queue model to maximize system performance. M/G/1 enhances queuing efficiency and accelerates channel access, thus reducing waiting time and increasing reliability. The experimental results show that our data aggregation scheme is reliable with low latency.

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An Artificial Intelligence-Based Quorum System for the Improvement of the Lifespan of Sensor Networks

Cited by 32 publications

References 36 publications

An Optimal Cluster Head and Gateway Node Selection with Fault Tolerance

An Optimal Cluster Head and Gateway Node Selection with Fault Tolerance

An Artificial Intelligence Approach Toward Food Spoilage Detection and Analysis

ES-PPDA: an efficient and secure privacy-protected data aggregation scheme in the IoT with an edge-based XaaS architecture

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