Design an efficient internet of things data compression for healthcare applications

Kahdim, Ahmed Najah; Manaa, Mehdi Ebady

doi:10.11591/eei.v11i3.3758

Cited by 6 publications

(3 citation statements)

References 23 publications

(23 reference statements)

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“…Two of these works acknowledge the existence of these algorithms but employ a different approach [ 8 , 9 ]. One paper [ 10 ] refers to [ 11 ], presenting an approach that uses Lempel–Ziv–Welch as one of the compression steps. There is also a highly specialized paper, with a signal processing use case, that uses Lempel–Ziv–Welch to encode data [ 12 ].…”

Section: Related Workmentioning

confidence: 99%

“…The previous papers [ 10 , 11 , 14 , 15 , 16 , 17 , 18 , 19 ] on this topic have primarily focused on compression algorithms such as LZW and its variations (e.g., s-LZW) and have often employed hardware with substantial computing power, such as the Raspberry Pi 4B with 8 GB RAM. In contrast, this paper introduces, as the main contribution and novelty of our work, the following new elements: the evaluation of canonical Huffman, Lempel–Ziv 77, Lempel–Ziv 78, and Lempel–Ziv–Welch algorithms in terms of energy and time efficiency for compressing and transmitting text data and the evaluation of the Joint Photographic Experts Group algorithm in terms of energy and time efficiency for compressing and transmitting image data.…”

Section: Related Workmentioning

confidence: 99%

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Study of the Impact of Data Compression on the Energy Consumption Required for Data Transmission in a Microcontroller-Based System

Piątkowski,

Puślecki,

Walkowiak

2023

Sensors

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As the number of Internet of Things (IoT) devices continues to rise dramatically each day, the data generated and transmitted by them follow similar trends. Given that a significant portion of these embedded devices operate on battery power, energy conservation becomes a crucial factor in their design. This paper aims to investigate the impact of data compression on the energy consumption required for data transmission. To achieve this goal, we conduct a comprehensive study using various transmission modules in a severely resource-limited microcontroller-based system designed for battery power. Our study evaluates the performance of several compression algorithms, conducting a detailed analysis of computational and memory complexity, along with performance metrics. The primary finding of our study is that by carefully selecting an algorithm for compressing different types of data before transmission, a significant amount of energy can be saved. Moreover, our investigation demonstrates that for a battery-powered embedded device transmitting sensor data based on the STM32F411CE microcontroller, the recommended transmission module is the nRF24L01+ board, as it requires the least amount of energy to transmit one byte of data. This module is most effective when combined with the LZ78 algorithm for optimal energy and time efficiency. In the case of image data, our findings indicate that the use of the JPEG algorithm for compression yields the best results. Overall, our research underscores the importance of selecting appropriate compression algorithms tailored to specific data types, contributing to enhanced energy efficiency in IoT devices.

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Study of the Impact of Data Compression on the Energy Consumption Required for Data Transmission in a Microcontroller-Based System

Piątkowski,

Puślecki,

Walkowiak

2023

Sensors

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show abstract

“…Consequently, a controller attack in an SDN environment can have a much bigger impact than a comparable attack on a traditional environment. DoS and DDoS [12], [13] attacks have reportedly been undertaken against a number of SDN controllers [14], including FloodLight, NOX, and RYU [15]- [17], among others, according to past studies. To the best of our knowledge, no in-depth research has been conducted on DoS and DDoS attacks conducted via POX and RYU controllers.…”

mentioning

confidence: 99%

Performance evaluation of RYU controller under distributed denial of service attacks

Kareem,

Jasim,

Hussein

et al. 2023

IJEECS

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<span>Distributed denial of service (DDoS) attacks have been identified as one of the greatest threats to software-defined networking (SDN) because they are highly effective, hard to detect, and easy to use, and they take advantage of vulnerabilities in which the new architecture still exists. This paper describes one technique for denying the RYU controller's services, which can cause the controller's resources to be depleted if a significant number of packets from various zombie hosts are sent to the controller using spoofed source internet protocol (IP) addresses. In order to demonstrate the impact of the attack, we measure various metrics related to RYU controllers such as its central processing unit (CPU) usage and network throughput. In this work, Mininet was used to simulate the data plane and measure metrics such as random access memory (RAM) usage, CPU load, and link latency.</span>

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Energy Efficient Data Management in Health Care

Haritha¹,

Latha.²,

A³

et al. 2023

2023 Third International Conference on Artificial Intelligence and Smart Energy (ICAIS)

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Design an efficient internet of things data compression for healthcare applications

Cited by 6 publications

References 23 publications

Study of the Impact of Data Compression on the Energy Consumption Required for Data Transmission in a Microcontroller-Based System

Study of the Impact of Data Compression on the Energy Consumption Required for Data Transmission in a Microcontroller-Based System

Performance evaluation of RYU controller under distributed denial of service attacks

Energy Efficient Data Management in Health Care

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