Reconfigurable miniature sensor nodes for condition monitoring

Nylanden, Teemu; Boutellier, Jani; Nikunen, Karri; Hannuksela, Jari; Silvén, Olli

doi:10.1109/samos.2012.6404164

Cited by 11 publications

(4 citation statements)

References 7 publications

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“…A specific application SDP, a root mean square (RMS) statistical procedure for information evaluation and analysis a Fast Fourier Transform (FFT) method for digital differential signal processing, a finite impulse response (FIR) filter for signal processing, and other signal and image compression techniques have been used. Other relevant contributions in this field [56], despite being at a low maturity level, analyze significant improvements in reprogrammed systems dedicated for FPGA-based wireless sensing uses and conforming to standards, Low-end IoT, where it is still suggested to deploy specific, network, and security related tasks in the FPGA. Although they contribute to a common vision, some contributions are still in the design phase.…”

Section: Combination Of Reconfigurable Platforms and Iot Motesmentioning

confidence: 99%

Future Internet of Things: Connecting the Unconnected World and Things Based on 5/6G Networks and Embedded Technologies

Messaoud¹,

Amdouni²,

Albouchi³

et al. 2023

Internet of Things - New Trends, Challenges and Hurdles

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Undeniably, the Internet of Things (IoT) ecosystem keeps on advancing at a fast speed, far above all predictions for growth and ubiquity. From sensor to cloud, this massive network continues to break technical limits in a variety of ways, and wireless sensor nodes are likely to become more prevalent as the number of Internet of Things devices increases into the trillions to connect the world and unconnected objects. However, their future in the IoT ecosystem remains uncertain, as various difficulties as with device connectivity, edge artificial intelligence (AI), security and privacy concerns, increased energy demands, the right technologies to use, and continue to attract opposite forces. This chapter provides a brief, forward-looking overview of recent trends, difficulties, and cutting-edge solutions for low-end IoT devices that use reconfigurable computing technologies like FPGA SoC and next-generation 5/6G networks. Tomorrow’s IoT devices will play a critical role. At the end of this chapter, an edge FPGA SoC computing-based IoT application is proposed, to be a novel edge computing for IoT solution with low power consumption and accelerated processing capability in data exchange.

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Section: Combination Of Reconfigurable Platforms and Iot Motesmentioning

confidence: 99%

Future Internet of Things: Connecting the Unconnected World and Things Based on 5/6G Networks and Embedded Technologies

Messaoud¹,

Amdouni²,

Albouchi³

et al. 2023

Internet of Things - New Trends, Challenges and Hurdles

View full text Add to dashboard Cite

show abstract

“…IEEE Pervasive Computing. 2015;14(2):24-31 [56] Wang S. Triboelectric nanogenerators as self-powered active sensors. Nano Energy.…”

Section: Trend Analysismentioning

confidence: 99%

Internet of Things - New Trends, Challenges and Hurdles

2023

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The Internet of Things (IoT) refers to a network of physical devices that communicate over the Internet using sensors, software, and other technologies. It has numerous applications in fields ranging from industry (e.g., Industry 4.0) to health care (e.g., telemonitoring, mobile health).When talking about IoT, it is important to focus on two fundamental aspects: the communication mechanism and the connected devices. The IoT is a multidisciplinary field that integrates both hardware and software.The expansion in the use of IoT technology in society has not been as widespread as it has been in the field of research. Therefore, although the technology is currently at a high level of maturity, there is still a lot of room for expansion and application in society. For this reason, it is essential that the research studies carried out serve as a transfer to society and allow for the implementation of the IoT in a real environment. Even though the IoT is already being used in everyday life in the form of smart applications, research in this area focuses on more risky solutions. This book presents several recent studies on the IoT that have great potential to be extrapolated to the real world in the future. We hope that the information contained herein will inspire future advances in the area.

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“…Several solutions that target wireless sensor systems were already proposed: PowWow [107], CookiesWSN [72], HaLoMote [22], CUTE mote [21], among others [108][109][110]. Table 3 summarizes the current state-of-the-art on low-end IoT motes that resort reconfigurable technology on their architecture, detailing their differences on the T&C previously identified, as well as their most important features and characteristics: radio device used, available network accelerators, security-related hardware/software premises, adopted SoC, MCU architecture, application-specific accelerators, and maturity level.…”

Section: Reconfigurable Platforms and Iot Motes: Putting It All Togethermentioning

confidence: 99%

“…The deployed accelerators consist of an application-specific SDP, a root mean square (RMS) statistical process for data analysis and interpretation, a finite impulse response (FIR) filter for signal processing, a fast Fourier transform (FFT) algorithm used for differential digital signal processing, and other algorithms for signal and image compression. Other relevant contributions on this field [109][110][111], although in a low-level maturity state, also discuss important advances in reconfigurable systems oriented for FPGA-based wireless sensing applications complying with the T&C for low-end IoT motes, where once again, application-specific, network-related and security tasks are suggested to be deployed in FPGA. Although contributing to a common vision, these contributions barely left their concept phase.…”

Section: Reconfigurable Platforms and Iot Motes: Putting It All Togethermentioning

confidence: 99%

The Future of Low-End Motes in the Internet of Things: A Prospective Paper

et al. 2020

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Undeniably, the Internet of Things (IoT) ecosystem continues to evolve at a breakneck pace, exceeding all growth expectations and ubiquity barriers. From sensor to cloud, this giant network keeps breaking technological bounds in several domains, and wireless sensor nodes (motes) are expected to be predominant as the number of IoT devices grows towards the trillions. However, their future in the IoT ecosystem still seems foggy, where several challenges, such as (i) device’s connectivity, (ii) intelligence at the edge, (iii) security and privacy concerns, and (iv) growing energy needs, keep pulling in opposite directions. This prospective paper offers a succinct and forward-looking review of recent trends, challenges, and state-of-the-art solutions of low-end IoT motes, where reconfigurable computing technology plays a key role in tomorrow’s IoT devices.

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Reconfigurable miniature sensor nodes for condition monitoring

Cited by 11 publications

References 7 publications

Future Internet of Things: Connecting the Unconnected World and Things Based on 5/6G Networks and Embedded Technologies

Future Internet of Things: Connecting the Unconnected World and Things Based on 5/6G Networks and Embedded Technologies

Internet of Things - New Trends, Challenges and Hurdles

The Future of Low-End Motes in the Internet of Things: A Prospective Paper

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